WorldWideScience

Sample records for science education promote

  1. Promoting Science in Secondary School Education.

    Science.gov (United States)

    Chiovitti, Anthony; Duncan, Jacinta C; Jabbar, Abdul

    2017-06-01

    Engaging secondary school students with science education is crucial for a society that demands a high level of scientific literacy in order to deal with the economic and social challenges of the 21st century. Here we present how parasitology could be used to engage and promote science in secondary school students under the auspice of a 'Specialist Centre' model for science education. Copyright © 2017 Elsevier Ltd. All rights reserved.

  2. Promoting Pre-college Science Education

    Science.gov (United States)

    Lee, R. L.

    1999-11-01

    The Fusion Education Program, with support from DOE, continues to promote pre-college science education for students and teachers using multiple approaches. An important part of our program is direct scientist-student interaction. Our ``Scientist in a Classroom'' program allows students to interact with scientists and engage in plasma science activities in the students' classroom. More than 1000 students from 11 schools have participated in this exciting program. Also, this year more than 800 students and teachers have visited the DIII--D facility and interacted with scientists to cover a broad range of technical and educational issues. Teacher-scientist interaction is imperative in professional development and each year more than 100 teachers attend workshops produced by the fusion education team. We also participate in unique learning opportunities. Members of the team, in collaboration with the San Diego County Office of Education, held a pioneering Internet-based Physics Olympiad for American and Siberian students. Our teamwork with educators helps shape material that is grade appropriate, relevant, and stimulates thinking in educators and students.

  3. PARRISE, Promoting Attainment of Responsible Research and Innovation in Science Education, FP7 : Rethinking science, rethinking education

    NARCIS (Netherlands)

    Knippels, M.C.P.J.; van Dam, F.W.

    The PARRISE (Promoting Attainment of Responsible Research & Innovation in Science Education) project aims at introducing the concept of Responsible Research and Innovation in primary and secondary education. It does so by combining inquiry-based learning and citizenship education with

  4. A model for education and promoting food science and technology ...

    African Journals Online (AJOL)

    A model for education and promoting food science and technology among high school students and the public. ... at the tertiary stage (retail) directly with the consumer while depending on the product of FST. ... AJOL African Journals Online.

  5. Engaging youth of color in applied science education and public health promotion

    Science.gov (United States)

    Sprague Martinez, Linda; Bowers, Edmond; Reich, Amanda J.; Ndulue, Uchenna J.; Le, Albert An; Peréa, Flavia C.

    2016-03-01

    Participation in inquiry-based science education, which focuses on student-constructed learning, has been linked to academic success. Whereas the benefits of this type of science education are evident, access to such high-quality science curriculum and programming is not equitable. Black and Latino students in particular have less access to supplementary science programming, and fewer opportunities to engage in inquiry-based education. This paper describes outcomes associated with an inquiry-based out-of-school time science education program, Nuestro Futuro: Applied Science Education to Engage Black and Latino Youth (NFASE), which sought to build the capacity of middle school students of color to 'think' like health scientists from diverse disciplinary perspectives. The program was designed with the intent of (1) improving student attitudes toward and motivation for science and (2) increasing active and engaged citizenship (AEC). NFASE students explored health inequity and the social determinants of health locally and engaged in developing health promotion, outreach and education efforts targeted to their peers, parents/families, and community. Interest in the program was high overall, but implementation was not without challenges. Although evaluation outcomes indicate that there were no statistically significant changes in science-related attitudes or motivation, students reported significant increases in neighborhood social connection, as well as overall AEC.

  6. Does STES-Oriented Science Education Promote 10th-Grade Students' Decision-Making Capability?

    Science.gov (United States)

    Levy Nahum, Tami; Ben-Chaim, David; Azaiza, Ibtesam; Herskovitz, Orit; Zoller, Uri

    2010-07-01

    Today's society is continuously coping with sustainability-related complex issues in the Science-Technology-Environment-Society (STES) interfaces. In those contexts, the need and relevance of the development of students' higher-order cognitive skills (HOCS) such as question-asking, critical-thinking, problem-solving and decision-making capabilities within science teaching have been argued by several science educators for decades. Three main objectives guided this study: (1) to establish "base lines" for HOCS capabilities of 10th grade students (n = 264) in the Israeli educational system; (2) to delineate within this population, two different groups with respect to their decision-making capability, science-oriented (n = 142) and non-science (n = 122) students, Groups A and B, respectively; and (3) to assess the pre-post development/change of students' decision-making capabilities via STES-oriented HOCS-promoting curricular modules entitled Science, Technology and Environment in Modern Society (STEMS). A specially developed and validated decision-making questionnaire was used for obtaining a research-based response to the guiding research questions. Our findings suggest that a long-term persistent application of purposed decision-making, promoting teaching strategies, is needed in order to succeed in affecting, positively, high-school students' decision-making ability. The need for science teachers' involvement in the development of their students' HOCS capabilities is thus apparent.

  7. Using the Geoscience Literacy Frameworks and Educational Technologies to Promote Science Literacy in Non-science Major Undergraduates

    Science.gov (United States)

    Carley, S.; Tuddenham, P.; Bishop, K. O.

    2008-12-01

    In recent years several geoscience communities have been developing ocean, climate, atmosphere and earth science literacy frameworks as enhancements to the National Science Education Standards content standards. Like the older content standards these new geoscience literacy frameworks have focused on K-12 education although they are also intended for informal education and general public audiences. These geoscience literacy frameworks potentially provide a more integrated and less abstract approach to science literacy that may be more suitable for non-science major students that are not pursuing careers in science research or education. They provide a natural link to contemporary environmental issues - e.g., climate change, resource depletion, species and habitat loss, natural hazards, pollution, development of renewable energy, material recycling. The College of Exploration is an education research non-profit that has provided process and technical support for the development of most of these geoscience literacy frameworks. It has a unique perspective on their development. In the last ten years it has also gained considerable national and international expertise in facilitating web-based workshops that support in-depth conversations among educators and working scientists/researchers on important science topics. These workshops have been of enormous value to educators working in K-12, 4-year institutions and community colleges. How can these geoscience literacy frameworks promote more collaborative inquiry-based learning that enhances the appreciation of scientific thinking by non-majors? How can web- and mobile-based education technologies transform the undergraduate non-major survey course into a place where learners begin their passion for science literacy rather than end it? How do we assess science literacy in students and citizens?

  8. Training teachers to promote Talent Development in Science Students In Science Education

    NARCIS (Netherlands)

    van der Valk, Ton

    2014-01-01

    In recent years, the interest of governments and schools in challenging gifted and talented (G+T) science students has grown (Taber, 2007). In the Netherlands, the government promotes developing science programmes for talented secondary science students. This causes a need for training teachers, but

  9. Science teaching in science education

    Science.gov (United States)

    Callahan, Brendan E.; Dopico, Eduardo

    2016-06-01

    Reading the interesting article Discerning selective traditions in science education by Per Sund , which is published in this issue of CSSE, allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must constantly develop new methods to teach and differentiate between science education and teaching science in response to the changing needs of our students, and we must analyze what role teachers and teacher educators play in both. We must continually examine the methods and concepts involved in developing pedagogical content knowledge in science teachers. Otherwise, the possibility that these routines, based on subjective traditions, prevent emerging processes of educational innovation. Modern science is an enormous field of knowledge in its own right, which is made more expansive when examined within the context of its place in society. We propose the need to design educative interactions around situations that involve science and society. Science education must provide students with all four dimensions of the cognitive process: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge. We can observe in classrooms at all levels of education that students understand the concepts better when they have the opportunity to apply the scientific knowledge in a personally relevant way. When students find value in practical exercises and they are provided opportunities to reinterpret their experiences, greater learning gains are achieved. In this sense, a key aspect of educational innovation is the change in teaching methodology. We need new tools to respond to new problems. A shift in teacher education is needed to realize the rewards of situating science questions in a societal context and opening classroom doors to active methodologies in science education to promote meaningful learning through meaningful teaching.

  10. Innovation in Science Education - World-Wide.

    Science.gov (United States)

    Baez, Albert V.

    The purpose of this book is to promote improvements in science education, world-wide, but particularly in developing countries. It is addressed to those in positions to make effective contributions to the improvement of science education. The world-wide role of science education, the goals of innovative activities, past experience in efforts to…

  11. Science education through informal education

    Science.gov (United States)

    Kim, Mijung; Dopico, Eduardo

    2016-06-01

    To develop the pedagogic efficiency of informal education in science teaching, promoting a close cooperation between institutions is suggested by Monteiro, Janerine, de Carvalho, and Martins. In their article, they point out effective examples of how teachers and educators work together to develop programs and activities at informal education places such as science museums. Their study explored and discussed the viability and relevancy of school visits to museums and possibilities to enhance the connection between students' visits in informal contexts and their learning in schools. Given that students learn science by crossing the boundaries of formal and informal learning contexts, it is critical to examine ways of integrated and collaborative approach to develop scientific literacy to help students think, act and communicate as members of problem solving communities. In this forum, we suggest the importance of students' lifeworld contexts in informal learning places as continuum of Monteiro, Janerine, de Carvalho, and Martins' discussion on enhancing the effectiveness of informal learning places in science education.

  12. Promoting Diversity Through Polar Interdisciplinary Coordinated Education (Polar ICE)

    Science.gov (United States)

    McDonnell, J. D.; Hotaling, L. A.; Garza, C.; Van Dyk, P. B.; Hunter-thomson, K. I.; Middendorf, J.; Daniel, A.; Matsumoto, G. I.; Schofield, O.

    2017-12-01

    Polar Interdisciplinary Coordinated Education (ICE) is an education and outreach program designed to provide public access to the Antarctic and Arctic regions through polar data and interactions with the scientists. The program provides multi-faceted science communication training for early career scientists that consist of a face-to face workshop and opportunities to apply these skills. The key components of the scientist training workshop include cultural competency training, deconstructing/decoding science for non-expert audiences, the art of telling science stories, and networking with members of the education and outreach community and reflecting on communication skills. Scientists partner with educators to provide professional development for K-12 educators and support for student research symposia. Polar ICE has initiated a Polar Literacy initiative that provides both a grounding in big ideas in polar science and science communication training designed to underscore the importance of the Polar Regions to the public while promoting interdisciplinary collaborations between scientists and educators. Our ultimate objective is to promote STEM identity through professional development of scientists and educators while developing career awareness of STEM pathways in Polar science.

  13. Further Democratizing Latin America: Broadening Access to Higher Education and Promoting Science Policies Focused on the Advanced Training of Human Resources

    Directory of Open Access Journals (Sweden)

    Manuel Heitor

    2014-08-01

    Full Text Available We focus this paper on the conditions to build reliable science, technology and higher education systems in Latin America, based on international comparative studies, fieldwork and interviews conducted over the last three years. The analysis shows that science can have a major role in furthering the democratization of society through public policies that foster opportunities to access knowledge and the advanced training of human resources. Broadening the social basis for higher education promotes the qualification of the labour force and contributes to social and economic development. The need to guarantee higher education diversity, strengthening scientific institutions and investing in a strong science base, is deemed as critical, but goes far beyond policies centred on innovation and industry-science relationships. It requires adequate training and attraction of skilled people, as well as the social promotion of a scientific and technological culture.

  14. Promotion of Influenza Prevention Beliefs and Behaviors through Primary School Science Education.

    Science.gov (United States)

    Koep, T H; Jenkins, S; M Hammerlund, M E; Clemens, C; Fracica, E; Ekker, S C; Enders, F T; Huskins, W C; Pierret, C

    2016-06-01

    School-based campaigns to improve student health have demonstrated short-term success across various health topics. However, evidence of the effectiveness of programs in promoting healthy beliefs and behaviors is limited. We hypothesized that educational curricula teaching the science behind health promotion would increase student knowledge, beliefs and adherence to healthy behaviors, in this case related to influenza. Integrated Science Education Outreach is a successful education intervention in Rochester, Minnesota public schools that has demonstrated improvements in student learning. Within this program, we designed novel curricula and assessments to determine if gains in knowledge extended to influenza prevention. Further, we coupled InSciEd Out programming with a clinical intervention, Influenza Prevention Prescription Education (IPPE), to compare students' attitudes, intentions and healthy behaviors utilizing surveys and hand hygiene monitoring equipment. 95 students participated in (IPPE) in the intervention school. Talking drawings captured improvement in influenza prevention understanding related to hand washing [pre n=17(43%); post n=30(77%)] and vaccination [pre n=2(5%); post n=15(38%)]. Findings from 1024 surveys from 566 students revealed strong baseline understanding and attitudes related to hand washing and cough etiquette (74% or greater positive responses). Automated hand hygiene monitoring in school bathrooms and classrooms estimated compliance for both soap (overall median 63%, IQR 38% to 100%) and hand sanitizer use (0.04 to 0.24 uses per student per day) but did not show significant pre/ post IPPE differences. Student understanding of principles of influenza prevention was reasonably high. Even with this baseline, InSciEd Out and IPPE improved students' unprompted knowledge of behaviors to prevent influenza, as reflected by talking drawings. This novel metric may be more sensitive in capturing knowledge among students than traditional

  15. How Mockups, a Key Engineering Tool, Help to Promote Science, Technology, Engineering, and Mathematics Education

    Science.gov (United States)

    McDonald, Harry E.

    2010-01-01

    The United States ranking among the world in science, technology, engineering, and mathematics (STEM) education is decreasing. To counteract this problem NASA has made it part of its mission to promote STEM education among the nation s youth. Mockups can serve as a great tool when promoting STEM education in America. The Orion Cockpit Working Group has created a new program called Students Shaping America s Next Space Craft (SSANS) to outfit the Medium Fidelity Orion Mockup. SSANS will challenge the students to come up with unique designs to represent the flight design hardware. There are two main types of project packages created by SSANS, those for high school students and those for university students. The high school projects will challenge wood shop, metal shop and pre-engineering classes. The university projects are created mainly for senior design projects and will require the students to perform finite element analysis. These projects will also challenge the undergraduate students in material selection and safety requirements. The SSANS program will help NASA in its mission to promote STEM education, and will help to shape our nations youth into the next generation of STEM leaders.

  16. Will the No Child Left Behind Act Promote Direct Instruction of Science?

    Science.gov (United States)

    Hake, Richard

    2005-03-01

    Education research in physics at the high school and undergraduate level strongly suggests that interactive engagement enhances students' conceptual understanding much more than traditional Direct Science Instruction (DSI). Similar conclusions can be drawn from K-8 science-education research. Nevertheless, DSI predominates in CA because of the DSI- orientation of the CA State Board of Education and Curriculum Commission [1]. Likewise the U.S. Dept. of Education's (USDE's): (a) DSI-orientation as demonstrated by its recent national-education summit showcasing of the research of Klahr and Nigam [2]; and (b) science achievement testing starting in 2007; threatens to promote DSI nationwide. It might be hoped that NRC's expert science education committees will steer the USDE away from promoting DSI, the antithesis of the NRC's own recommendations for inquiry methods. [1] R.R. Hake. ``Direct Science Instruction Suffers a Setback in California - Or Does It?" (2004), pdf>. [2] Klahr, D. & M. Nigam. 2004. ``The equivalence of learning paths in early science instruction: effects of direct instruction and discovery learning" (2004), .

  17. Promoting Children's Understanding And Interest In Science Through Informal Science Education

    Science.gov (United States)

    Bartley, Jessica E.; Mayhew, Laurel M.; Finkelstein, Noah D.

    2009-11-01

    We present results from the University of Colorado's Partnership for Informal Science Education in the Community (PISEC) in which university participants work in afterschool programs on inquiry-based activities with primary school children from populations typically under represented in science. This university-community partnership is designed to positively impact youth, university students, and the institutions that support them while improving children's attitudes towards and understanding of science. Children worked through circuit activities adapted from the Physics and Everyday Thinking (PET) curriculum and demonstrated increased understanding of content area as well as favorable beliefs about science.

  18. Toward inclusive science education: University scientists' views of students,instructional practices, and the nature of science

    Science.gov (United States)

    Bianchini, Julie A.; Whitney, David J.; Breton, Therese D.; Hilton-Brown, Bryan A.

    2002-01-01

    This study examined the perceptions and self-reported practices of 18 scientists participating in a yearlong seminar series designed to explore issues of gender and ethnicity in science. Scientists and seminar were part of the Promoting Women and Scientific Literacy project, a curriculum transformation and professional development initiative undertaken by science, science education, and women's studies faculty at their university. Researchers treated participating scientists as critical friends able to bring clarity to and raise questions about conceptions of inclusion in science education. Through questionnaires and semistructured interviews, we explored their (a) rationales for differential student success in undergraduate science education; (b) self-reports of ways they structure, teach, and assess courses to promote inclusion; and (c) views of androcentric and ethnocentric bias in science. Statistical analysis of questionnaires yielded few differences in scientists' views and reported practices by sex or across time. Qualitative analysis of interviews offered insight into how scientists can help address the problem of women and ethnic minorities in science education; constraints encountered in attempts to implement pedagogical and curricular innovations; and areas of consensus and debate across scientists and science studies scholars' descriptions of science. From our findings, we provided recommendations for other professional developers working with scientists to promote excellence and equity in undergraduate science education.

  19. Levinas and an Ethics for Science Education

    Science.gov (United States)

    Blades, David W.

    2006-01-01

    Despite claims that STS(E) science education promotes ethical responsibility, this approach is not supported by a clear philosophy of ethics. This paper argues that the work of Emmanuel Levinas provides an ethics suitable for an STS(E) science education. His concept of the face of the Other redefines education as learning from the other, rather…

  20. A Science Education that Promotes the Characteristics of Science and Scientists

    Directory of Open Access Journals (Sweden)

    Michael P. Clough

    2015-01-01

    Full Text Available Why does anyone do science? Why would anyone want to do science? Those are question that take on added significance as policymakers around the globe emphasize the importance of STEM education and seek to encourage the best and brightest young minds to enter STEM fields. But at the root of those questions are more fundamental issues that are important for all citizens.

  1. New concepts of science and medicine in science and technology studies and their relevance to science education.

    Science.gov (United States)

    Wang, Hsiu-Yun; Stocker, Joel F; Fu, Daiwie

    2012-02-01

    Science education often adopts a narrow view of science that assumes the lay public is ignorant, which seemingly justifies a science education limited to a promotional narrative of progress in the form of scientific knowledge void of meaningful social context. We propose that to prepare students as future concerned citizens of a technoscientific society, science education should be informed by science, technology, and society (STS) perspectives. An STS-informed science education, in our view, will include the following curricular elements: science controversy education, gender issues, historical perspective, and a move away from a Eurocentric view by looking into the distinctive patterns of other regional (in this case of Taiwan, East Asian) approaches to science, technology, and medicine. This article outlines the significance of some major STS studies as a means of illustrating the ways in which STS perspectives can, if incorporated into science education, enhance our understanding of science and technology and their relationships with society. Copyright © 2011. Published by Elsevier B.V.

  2. New concepts of science and medicine in science and technology studies and their relevance to science education

    Directory of Open Access Journals (Sweden)

    Hsiu-Yun Wang

    2012-02-01

    Full Text Available Science education often adopts a narrow view of science that assumes the lay public is ignorant, which seemingly justifies a science education limited to a promotional narrative of progress in the form of scientific knowledge void of meaningful social context. We propose that to prepare students as future concerned citizens of a technoscientific society, science education should be informed by science, technology, and society (STS perspectives. An STS-informed science education, in our view, will include the following curricular elements: science controversy education, gender issues, historical perspective, and a move away from a Eurocentric view by looking into the distinctive patterns of other regional (in this case of Taiwan, East Asian approaches to science, technology, and medicine. This article outlines the significance of some major STS studies as a means of illustrating the ways in which STS perspectives can, if incorporated into science education, enhance our understanding of science and technology and their relationships with society.

  3. The New Science Education Leadership: An IT-Based Learning Ecology Model. Technology, Education--Connections (TEC) Series

    Science.gov (United States)

    Schielack, Jane F., Ed.; Knight, Stephanie L., Ed.

    2012-01-01

    How can we use new technology to support and educate the science leaders of tomorrow? This unique book describes the design, development, and implementation of an effective science leadership program that promotes collaboration among scientists and science educators, provides authentic research experiences for educators, and facilitates adaptation…

  4. Improving science literacy and education through space life sciences

    Science.gov (United States)

    MacLeish, M. Y.; Moreno, N. P.; Tharp, B. Z.; Denton, J. J.; Jessup, G.; Clipper, M. C.

    2001-01-01

    The National Space Biomedical Research Institute (NSBRI) encourages open involvement by scientists and the public at large in the Institute's activities. Through its Education and Public Outreach Program, the Institute is supporting national efforts to improve Kindergarten through grade twelve (K-12) and undergraduate education and to communicate knowledge generated by space life science research to lay audiences. Three academic institution Baylor College of Medicine, Morehouse School of Medicine and Texas A&M University are designing, producing, field-testing, and disseminating a comprehensive array of programs and products to achieve this goal. The objectives of the NSBRI Education and Public Outreach program are to: promote systemic change in elementary and secondary science education; attract undergraduate students--especially those from underrepresented groups--to careers in space life sciences, engineering and technology-based fields; increase scientific literacy; and to develop public and private sector partnerships that enhance and expand NSBRI efforts to reach students and families. c 2001. Elsevier Science Ltd. All rights reserved.

  5. Space Life Sciences Research and Education Program

    Science.gov (United States)

    Coats, Alfred C.

    2001-01-01

    Since 1969, the Universities Space Research Association (USRA), a private, nonprofit corporation, has worked closely with the National Aeronautics and Space Administration (NASA) to advance space science and technology and to promote education in those areas. USRA's Division of Space Life Sciences (DSLS) has been NASA's life sciences research partner for the past 18 years. For the last six years, our Cooperative Agreement NCC9-41 for the 'Space Life Sciences Research and Education Program' has stimulated and assisted life sciences research and education at NASA's Johnson Space Center (JSC) - both at the Center and in collaboration with outside academic institutions. To accomplish our objectives, the DSLS has facilitated extramural research, developed and managed educational programs, recruited and employed visiting and staff scientists, and managed scientific meetings.

  6. Informing the Development of Science Exhibitions through Educational Research

    Science.gov (United States)

    Laherto, Antti

    2013-01-01

    This paper calls for greater use of educational research in the development of science exhibitions. During the past few decades, museums and science centres throughout the world have placed increasing emphasis on their educational function. Although exhibitions are the primary means of promoting visitors' learning, educational research is not…

  7. Promoting inclusive education, civic scientific literacy, and global citizenship with videogames

    Science.gov (United States)

    Marino, Matthew T.; Hayes, Michael T.

    2012-12-01

    In this response to Yupanqui Munoz and Charbel El-Hani's paper, "The student with a thousand faces: From the ethics in videogames to becoming a citizen", we examine their critique of videogames in science education. Munoz and El-Hani present a critical analysis of videogames such as Grand Theft Auto, Street Fight, Command and Conquer: Generals, Halo, and Fallout 3 using Neil Postman's (1993) conceptualization of technopoly along with Bill Green and Chris Bigum's (1993) notion of the cyborg curriculum. Our contention is that these games are not representative of current educational videogames about science, which hold the potential to enhance civic scientific literacy across a diverse range of students while promoting cross-cultural understandings of complex scientific concepts and phenomenon. We examine games that have undergone empirical investigation in general education science classrooms, such as River City, Quest Atlantis, Whyville, Resilient Planet, and You Make Me Sick!, and discuss the ways these videogames can engage students and teachers in a constructivist dialogue that enhances science education. Our critique extends Munoz and El-Hani's discussion through an examination of the ways videogames can enhance science education by promoting inclusive education, civic scientific literacy, and global citizenship.

  8. Invited to Academia. Recruited for Science or Teaching in Education Sciences

    Science.gov (United States)

    Angervall, Petra; Gustafsson, Jan

    2016-01-01

    In the context of higher education in Sweden, we see how major policy change is forming the field of Education Sciences. This change has promoted an increased focus on competitiveness, while reducing inefficiencies in mass-education. It has given legitimacy to specific recruitment strategies and career paths, but can also explain what determines…

  9. Promoting Art through Technology, Education and Research of Natural Sciences (PATTERNS) across Wyoming, A Wyoming NSF EPSCoR Funded Project

    Science.gov (United States)

    Gellis, B. S.; McElroy, B. J.

    2016-12-01

    PATTERNS across Wyoming is a science and art project that promotes new and innovative approaches to STEM education and outreach, helping to re-contextualize how educators think about creative knowledge, and how to reach diverse audiences through informal education. The convergence of art, science and STEM outreach efforts is vital to increasing the presence of art in geosciences, developing multidisciplinary student research opportunities, expanding creative STEM thinking, and generating creative approaches of visualizing scientific data. A major goal of this project is to train art students to think critically about the value of scientific and artistic inquiry. PATTERNS across Wyoming makes science tangible to Wyoming citizens through K-14 art classrooms, and promotes novel maker-based art explorations centered around Wyoming's geosciences. The first PATTERNS across Wyoming scientific learning module (SIM) is a fish-tank sized flume that recreates natural patterns in sand as a result of fluid flow and sediment transport. It will help promotes the understanding of river systems found across Wyoming (e.g. Green, Yellowstone, Snake). This SIM, and the student artwork inspired by it, will help to visualize environmental-water changes in the central Rocky Mountains and will provide the essential inspiration and tools for Wyoming art students to design biological-driven creative explorations. Each art class will receive different fluvial system conditions, allowing for greater understanding of river system interactions. Artwork will return to the University of Wyoming for a STE{A}M Exhibition inspired by Wyoming's varying fluvial systems. It is our hope that new generations of science and art critical thinkers will not only explore questions of `why' and `how' scientific phenomena occur, but also `how' to better predict, conserve and study invaluable artifacts, and visualize conditions which allow for better control of scientific outcomes and public understanding.

  10. Promoting Societal-Oriented Communication and Decision Making Skills by Learning about Advertising in Science Education

    Directory of Open Access Journals (Sweden)

    Nadja Belova

    2014-03-01

    Full Text Available In our everyday lives we are surrounded by advertising in its various forms. Thus in the school context it is not surprising that the issue of advertising is addressed by different subjects, with the main foci being advertising-specific language, images and illustrations, use of stereotypes, strategies of persuasion etc. But advertising also contains factual information, being explicit or implicit, to make a campaign more credible and underline the effectiveness of a certain product. Dealing with the use of factual information in advertising critically is important for the consumer. For many products this information is derived from science and technology. Understanding the science in and behind advertising is necessary to become a critical consumer. Learning about the use of science in advertising also allows promoting societal-oriented communication and decision making skills in the science classroom. Unfortunately, only a few examples on the use of advertising in the science classroom exist. This paper provides a justification for the use of advertising in science education. Examples from the classroom developed in the framework of the PROFILES-project are provided by way of illustration.

  11. Health Promotion Education

    DEFF Research Database (Denmark)

    Lehn-Christiansen, Sine

    The paper discusses the implications of health promotion in education. The paper is based on my PhD project entitled “Health promotion education seen through a power/knowledge and subjectification perspective” (in prep). The PhD project explores how professional health promotion skills are concei......The paper discusses the implications of health promotion in education. The paper is based on my PhD project entitled “Health promotion education seen through a power/knowledge and subjectification perspective” (in prep). The PhD project explores how professional health promotion skills...

  12. Investigation of Strategies to Promote Effective Teacher Professional Development Experiences in Earth Science

    Science.gov (United States)

    Engelmann, Carol A.

    2014-01-01

    This dissertation serves as a call to geoscientists to share responsibility with K-12 educators for increasing Earth science literacy. When partnerships are created among K-12 educators and geoscientists, the synergy created can promote Earth science literacy in students, teachers, and the broader community. The research described here resulted in…

  13. Building Ocean Learning Communities: A COSEE Science and Education Partnership

    Science.gov (United States)

    Robigou, V.; Bullerdick, S.; Anderson, A.

    2007-12-01

    The core mission of the Centers for Ocean Sciences Education Excellence (COSEE) is to promote partnerships between research scientists and educators through a national network of regional and thematic centers. In addition, the COSEEs also disseminate best practices in ocean sciences education, and promote ocean sciences as a charismatic interdisciplinary vehicle for creating a more scientifically literate workforce and citizenry. Although each center is mainly funded through a peer-reviewed grant process by the National Science Foundation (NSF), the centers form a national network that fosters collaborative efforts among the centers to design and implement initiatives for the benefit of the entire network and beyond. Among these initiatives the COSEE network has contributed to the definition, promotion, and dissemination of Ocean Literacy in formal and informal learning settings. Relevant to all research scientists, an Education and Public Outreach guide for scientists is now available at www.tos.org. This guide highlights strategies for engaging scientists in Ocean Sciences Education that are often applicable in other sciences. To address the challenging issue of ocean sciences education informed by scientific research, the COSEE approach supports centers that are partnerships between research institutions, formal and informal education venues, advocacy groups, industry, and others. The COSEE Ocean Learning Communities, is a partnership between the University of Washington College of Ocean and Fishery Sciences and College of Education, the Seattle Aquarium, and a not-for-profit educational organization. The main focus of the center is to foster and create Learning Communities that cultivate contributing, and ocean sciences-literate citizens aware of the ocean's impact on daily life. The center is currently working with volunteer groups around the Northwest region that are actively involved in projects in the marine environment and to empower these diverse groups

  14. Redesigning a General Education Science Course to Promote Critical Thinking.

    Science.gov (United States)

    Rowe, Matthew P; Gillespie, B Marcus; Harris, Kevin R; Koether, Steven D; Shannon, Li-Jen Y; Rose, Lori A

    2015-01-01

    Recent studies question the effectiveness of a traditional university curriculum in helping students improve their critical thinking and scientific literacy. We developed an introductory, general education (gen ed) science course to overcome both deficiencies. The course, titled Foundations of Science, differs from most gen ed science offerings in that it is interdisciplinary; emphasizes the nature of science along with, rather than primarily, the findings of science; incorporates case studies, such as the vaccine-autism controversy; teaches the basics of argumentation and logical fallacies; contrasts science with pseudoscience; and addresses psychological factors that might otherwise lead students to reject scientific ideas they find uncomfortable. Using a pretest versus posttest design, we show that students who completed the experimental course significantly improved their critical-thinking skills and were more willing to engage scientific theories the general public finds controversial (e.g., evolution), while students who completed a traditional gen ed science course did not. Our results demonstrate that a gen ed science course emphasizing the process and application of science rather than just scientific facts can lead to improved critical thinking and scientific literacy. © 2015 M. P. Rowe, B. M. Gillespie, et al. CBE—Life Sciences Education © 2015 The American Society for Cell Biology. This article is distributed by The American Society for Cell Biology under license from the author(s). It is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0).

  15. Multicultural education, pragmatism, and the goals of science teaching

    Science.gov (United States)

    El-Hani, Charbel Niño; Mortimer, Eduardo Fleury

    2007-07-01

    In this paper, we offer an intermediate position in the multiculturalism/universalism debate, drawing upon Cobern and Loving's epistemological pluralism, pragmatist philosophies, Southerland's defense of instructional multicultural science education, and the conceptual profile model. An important element in this position is the proposal that understanding is the proper goal of science education. Our commitment to this proposal is explained in terms of a defense of an ethics of coexistence for dealing with cultural differences, according to which social argumentative processes—including those in science education—should be marked by dialogue and confrontation of arguments in the search of possible solutions, and an effort to (co-)live with differences if a negotiated solution is not reached. To understand the discourses at stake is, in our view, a key requirement for the coexistence of arguments and discourses, and the science classroom is the privileged space for promoting an understanding of the scientific discourse in particular. We argue for "inclusion" of students' culturally grounded ideas in science education, but in a sense that avoids curricular multicultural science education, and, thus, any attempt to broaden the definition of "science" so that ideas from other ways of knowing might be simply treated as science contents. Science teachers should always take in due account the diversity of students' worldviews, giving them room in argumentative processes in science classrooms, but should never lose from sight the necessity of stimulating students to understand scientific ideas. This view is grounded on a distinction between the goals of science education and the nature of science instruction, and demands a discussion about how learning is to take place in culturally sensitive science education, and about communicative approaches that might be more productive in science classrooms organized as we propose here. We employ the conceptual profile model to

  16. Impact of Informal Science Education on Children's Attitudes About Science

    Science.gov (United States)

    Wulf, Rosemary; Mayhew, Laurel M.; Finkelstein, Noah D.

    2010-10-01

    The JILA Physics Frontier Center Partnerships for Informal Science Education in the Community (PISEC) provides informal afterschool inquiry-based science teaching opportunities for university participants with children typically underrepresented in science. We focus on the potential for this program to help increase children's interest in science, mathematics, and engineering and their understanding of the nature of science by validating the Children's Attitude Survey, which is based on the Colorado Learning Attitudes about Science Survey [1] and designed to measure shifts in children's attitudes about science and the nature of science. We present pre- and post-semester results for several semesters of the PISEC program, and demonstrate that, unlike most introductory physics courses in college, our after-school informal science programs support and promote positive attitudes about science.

  17. Science education and literacy: imperatives for the developed and developing world.

    Science.gov (United States)

    Webb, Paul

    2010-04-23

    This article explores current language-based research aimed at promoting scientific literacy and examines issues of language use in schools, particularly where science teaching and learning take place in teachers' and learners' second language. Literature supporting the premise that promoting reading, writing, and talking while "doing science" plays a vital role in effective teaching and learning of the subject is highlighted. A wide range of studies suggest that, whether in homogenous or language-diverse settings, science educators can make a significant contribution to both understanding science and promoting literacy.

  18. Science comics as tools for science education and communication: a brief, exploratory study

    Directory of Open Access Journals (Sweden)

    M. Tatalovic

    2009-11-01

    Full Text Available Comics are a popular art form especially among children and as such provide a potential medium for science education and communication. In an attempt to present science comics in a museum exhibit I found many science themed comics and graphic books. Here I attempt to provide an overview of already available comics that communicate science, the genre of ‘science comics’. I also provide a quick literature review for evidence that comics can indeed be efficiently used for promoting scientific literacy via education and communication. I address the issue of lack of studies about science comics and their readers and suggest some possible reasons for this as well as some questions that could be addressed in future studies on the effect these comics may have on science communication.

  19. Southern Africa Journal of Education, Science and Technology

    African Journals Online (AJOL)

    The Southern Africa Journal of Science and Technology is a peer-reviewed journal that seeks to promote original research and disseminated knowledge in the fields of education, science and technology. Vol 3, No 1-2 (2008). DOWNLOAD FULL TEXT Open Access DOWNLOAD FULL TEXT Subscription or Fee Access ...

  20. Globalisation and science education: Rethinking science education reforms

    Science.gov (United States)

    Carter, Lyn

    2005-05-01

    Like Lemke (J Res Sci Teach 38:296-316, 2001), I believe that science education has not looked enough at the impact of the changing theoretical and global landscape by which it is produced and shaped. Lemke makes a sound argument for science education to look beyond its own discourses toward those like cultural studies and politics, and to which I would add globalisation theory and relevant educational studies. Hence, in this study I draw together a range of investigations to argue that globalisation is indeed implicated in the discourses of science education, even if it remains underacknowledged and undertheorized. Establishing this relationship is important because it provides different frames of reference from which to investigate many of science education's current concerns, including those new forces that now have a direct impact on science classrooms. For example, one important question to investigate is the degree to which current science education improvement discourses are the consequences of quality research into science teaching and learning, or represent national and local responses to global economic restructuring and the imperatives of the supranational institutions that are largely beyond the control of science education. Developing globalisation as a theoretical construct to help formulate new questions and methods to examine these questions can provide science education with opportunities to expand the conceptual and analytical frameworks of much of its present and future scholarship.

  1. Science comics as tools for science education and communication: a brief, exploratory study

    OpenAIRE

    M. Tatalovic

    2009-01-01

    Comics are a popular art form especially among children and as such provide a potential medium for science education and communication. In an attempt to present science comics in a museum exhibit I found many science themed comics and graphic books. Here I attempt to provide an overview of already available comics that communicate science, the genre of ‘science comics’. I also provide a quick literature review for evidence that comics can indeed be efficiently used for promoting scientific li...

  2. Professor Barry Fraser's contributions to science education research

    Science.gov (United States)

    Aldridge, Jill M.

    2011-09-01

    In this article, I endeavour to convey the depth of Barry Fraser's contributions to science education research, including his tireless endeavours to promote and advance research, especially the field of learning environments, the realisation of his vision to create one of the largest doctoral programs in science and mathematics education in the world, his leadership capacity in terms of guiding and leading an internationally renowned centre and large-scale cross-national and cross-cultural studies, his dedication towards human capacity building in Africa, Asia and elsewhere, his capacity as a mentor and editor that have seen the publication of numerous journal articles and books and the ongoing success of science education research journals.

  3. Redesigning a General Education Science Course to Promote Critical Thinking

    Science.gov (United States)

    Rowe, Matthew P.; Gillespie, B. Marcus; Harris, Kevin R.; Koether, Steven D.; Shannon, Li-Jen Y.; Rose, Lori A.

    2015-01-01

    Recent studies question the effectiveness of a traditional university curriculum in helping students improve their critical thinking and scientific literacy. We developed an introductory, general education (gen ed) science course to overcome both deficiencies. The course, titled Foundations of Science, differs from most gen ed science offerings in that it is interdisciplinary; emphasizes the nature of science along with, rather than primarily, the findings of science; incorporates case studies, such as the vaccine-autism controversy; teaches the basics of argumentation and logical fallacies; contrasts science with pseudoscience; and addresses psychological factors that might otherwise lead students to reject scientific ideas they find uncomfortable. Using a pretest versus posttest design, we show that students who completed the experimental course significantly improved their critical-thinking skills and were more willing to engage scientific theories the general public finds controversial (e.g., evolution), while students who completed a traditional gen ed science course did not. Our results demonstrate that a gen ed science course emphasizing the process and application of science rather than just scientific facts can lead to improved critical thinking and scientific literacy. PMID:26231561

  4. Fostering Eroticism in Science Education to Promote Erotic Generosities for the Ocean-Other

    Science.gov (United States)

    Luther, Rachel

    2013-01-01

    Despite the increase in marine science curriculum in secondary schools, marine science is not generally required curricula and has been largely deemphasized or ignored in relation to earth science, biology, chemistry, and physics. I call for the integration and implementation of marine science more fully in secondary science education through…

  5. Using Drama to Promote Argumentation in Science Education. The Case of "Should've"

    Science.gov (United States)

    Archila, Pablo Antonio

    2017-05-01

    The purpose of this study was to use drama as a springboard for promoting argumentation among 91 first-semester undergraduate medical students (56 females and 35 males, 16-30 years old) in Colombia during a complete teaching-learning sequence (TLS) supervised by the same teacher. The drama used was the play Should've, written by Nobel laureate Roald Hoffmann. The data was derived from students' written responses, audio and video recordings, and written field notes. This investigation provides evidence that an approach combining drama and argumentation could increase students' awareness of the relevance of ethics in science as one of the features of science (FOS). The findings show that the play Should've can be useful for promoting students' argumentation and is also appropriate for medical students. Future studies could include other science disciplines (e.g., astronomy, biology, chemistry, earth science, ecology, physics); students of other ages; and other plays and experiments in other parts of the world.

  6. Accomplishing the Visions for Teacher Education Programs Advocated in the National Science Education Standards

    Science.gov (United States)

    Akcay, Hakan; Yager, Robert

    2010-10-01

    The purpose of this study was to investigate the advantages of an approach to instruction using current problems and issues as curriculum organizers and illustrating how teaching must change to accomplish real learning. The study sample consisted of 41 preservice science teachers (13 males and 28 females) in a model science teacher education program. Both qualitative and quantitative research methods were used to determine success with science discipline-specific “Societal and Educational Applications” courses as one part of a total science teacher education program at a large Midwestern university. Students were involved with idea generation, consideration of multiple points of views, collaborative inquiries, and problem solving. All of these factors promoted grounded instruction using constructivist perspectives that situated science with actual experiences in the lives of students.

  7. Guidelines for Building Science Education

    Energy Technology Data Exchange (ETDEWEB)

    Metzger, Cheryn E. [Pacific Northwest National Lab. (PNNL), Richland, WA (United States); Rashkin, Samuel [Pacific Northwest National Lab. (PNNL), Richland, WA (United States); Huelman, Pat [Pacific Northwest National Lab. (PNNL), Richland, WA (United States)

    2015-11-01

    building science education. This report summarizes the steps DOE has taken to develop guidance for building science education and outlines a path forward towards creating real change for an industry in need. The Guidelines for Building Science Education outlined in Appendix A of this report have been developed for external stakeholders to use to certify that their programs are incorporating the most important aspects of building science at the most appropriate proficiency level for their role. The guidelines are intended to be used primarily by training organizations, universities, and certification bodies. Each guideline can be printed or saved as a stand-alone document for ease-of-use by the respective stakeholder group. In 2015, DOE, with leadership from Pacific Northwest National Laboratory (PNNL), is launching a multi-year campaign to promote the adoption of the Guidelines for Building Science Education in a variety of training settings.

  8. What is `Agency'? Perspectives in Science Education Research

    Science.gov (United States)

    Arnold, Jenny; Clarke, David John

    2014-03-01

    The contemporary interest in researching student agency in science education reflects concerns about the relevance of schooling and a shift in science education towards understanding learning in science as a complex social activity. The purpose of this article is to identify problems confronting the science education community in the development of this new research agenda and to argue that there is a need for research in science education that attends to agency as a social practice. Despite increasing interest in student agency in educational research, the term 'agency' has lacked explicit operationalisation and, across the varied approaches, such as critical ethnography, ethnographies of communication, discourse analysis and symbolic interactionism, there has been a lack of coherence in its research usage. There has also been argument concerning the validity of the use of the term 'agency' in science education research. This article attempts to structure the variety of definitions of 'student agency' in science education research, identifies problems in the research related to assigning intentionality to research participants and argues that agency is a kind of discursive practice. The article also draws attention to the need for researchers to be explicit in the assumptions they rely upon in their interpretations of social worlds. Drawing upon the discursive turn in the social sciences, a definition of agency is provided, that accommodates the discursive practices of both individuals and the various functional social groups from whose activities classroom practice is constituted. The article contributes to building a focused research agenda concerned with understanding and promoting student agency in science.

  9. Teaching heroics: Identity and ethical imagery in science education

    Science.gov (United States)

    Robeck, Edward C.

    In what follows, I address ways in which science education can influence personal identity and social relationships. I do this through a consideration of ideological implications of science as it is constituted in science education. In this situation, I consider science to be a symbolic--emanating from socially derived meanings. I begin with the premise that any symbol system is permeated with ideological elements. To highlight the ideological elements of science in science education, I use another more explicitly symbolic system as a comparative framework. That system is epic heroism, primarily as Joseph Campbell (1949) describes it in The Hero With A Thousand Faces. The discussion of science education is given a practical grounding using transcripts from the interviews with twenty Grade 10 students and many of their teachers undertaken in the 1993-1994 school year. I used epic heroism as a framework for initiating interpretations of broad themes from the transcripts, but also read the transcripts in relation to aspects of epic heroism, including existing critiques of Campbell's work and heroism more broadly. Specific quotes are included to illustrations of various points. My particular focus here is on ideological elements that can be associated with racism, sexism, and other social relationships that are collectively referred to as relations involving divisive bias. In particular, two themes are discussed extensively. The first is the theme of identity formed through separation, which results in the promotion of reductive and individualistic identities. The second theme has to do with the role of boundary imagery in the formation of relationship, which establishes difference hierarchically. Both of these are pervasive in divisive bias and in the imagery of epic heroism. Ways in which they can pervade practices in science education are also discussed. The central argument of the thesis is that science education, when undertaken through practices that incorporate

  10. Promoting Issues-based STSE Perspectives in Science Teacher Education: Problems of Identity and Ideology

    Science.gov (United States)

    Pedretti, Erminia G.; Bencze, Larry; Hewitt, Jim; Romkey, Lisa; Jivraj, Ashifa

    2008-09-01

    Although science, technology, society and environment (STSE) education has gained considerable force in the past few years, it has made fewer strides in practice. We suggest that science teacher identity plays a role in the adoption of STSE perspectives. Simply put, issues-based STSE education challenges traditional images of a science teacher and science instructional ideologies. In this paper, we briefly describe the development of a multimedia documentary depicting issues-based STSE education in a teacher’s class and its subsequent implementation with 64 secondary student-teachers at a large Canadian university. Specifically, we set out to explore: (1) science teacher candidates’ responses to a case of issues-based STSE teaching, and (2) how science teacher identity intersects with the adoption of STSE perspectives. Findings reveal that although teacher candidates expressed confidence and motivation regarding teaching STSE, they also indicated decreased likelihood to teach these perspectives in their early years of teaching. Particular tensions or problems of practice consistently emerged that helped explain this paradox including issues related to: control and autonomy; support and belonging; expertise and negotiating curriculum; politicization and action; and biases and ideological bents. We conclude our paper with a discussion regarding the lessons learned about STSE education, teacher identity and the role of multimedia case methods.

  11. Promoting Science and Technology in Primary Education: A Review of Integrated Curricula

    NARCIS (Netherlands)

    Drs Rens Gresnigt; Koeno Gravemeijer; Hanno Keulen, van; Liesbeth Baartman; Ruurd Taconis

    2014-01-01

    Integrated curricula seem promising for the increase of attention on science and technology in primary education. A clear picture of the advantages and disadvantages of integration efforts could help curriculum innovation. This review has focussed on integrated curricula in primary education from

  12. Promoting science and technology in primary education : a review of integrated curricula

    NARCIS (Netherlands)

    Gresnigt, H.L.L.; Taconis, R.; Keulen, van Hanno; Gravemeijer, K.P.E.; Baartman, L.K.J.

    2014-01-01

    Integrated curricula seem promising for the increase of attention on science and technology in primary education. A clear picture of the advantages and disadvantages of integration efforts could help curriculum innovation. This review has focused on integrated curricula in primary education from

  13. Promoting science and technology in primary education : a review of integrated curricula

    NARCIS (Netherlands)

    Hanno van Keulen; Rens Gresnigt; Liesbeth Baartman; Ruurd Taconis; Koeno Gravemeijer

    2014-01-01

    Integrated curricula seem promising for the increase of attention on science and technology in primary education. A clear picture of the advantages and disadvantages of integration efforts could help curriculum innovation. This review has focussed on integrated curricula in primary education from

  14. The Development of STEAM Educational Policy to Promote Student Creativity and Social Empowerment

    Science.gov (United States)

    Allina, Babette

    2018-01-01

    The Science, Technology, Engineering, Arts, and Mathematics (STEAM) movement argues that broad-based education that promotes creativity recognizes student learning diversity, increases student engagement and can potentially enhance Science, Technology, Engineering, and Mathematics (STEM) learning by embracing cross-cutting translational skills…

  15. Student-Centered Learning in an Earth Science, Preservice, Teacher-Education Course

    Science.gov (United States)

    Avard, Margaret

    2009-01-01

    In an effort to get elementary teachers to teach more science in the classroom, a required preservice science education course was designed to promote the use of hands-on teaching techniques. This paper describes course content and activities for an innovative, student-centered, Earth science class. However, any science-content course could be…

  16. Pedagogical perspectives and implicit theories of teaching: First year science teachers emerging from a constructivist science education program

    Science.gov (United States)

    Dias, Michael James

    Traditional, teacher-centered pedagogies dominate current teaching practice in science education despite numerous research-based assertions that promote more progressive, student-centered teaching methods. Best-practice research emerging from science education reform efforts promotes experiential, collaborative learning environments in line with the constructivist referent. Thus there is a need to identify specific teacher education program designs that will promote the utilization of constructivist theory among new teachers. This study explored the learning-to-teach process of four first-year high school teachers, all graduates of a constructivist-based science education program known as Teacher Education Environments in Mathematics and Science (TEEMS). Pedagogical perspectives and implicit theories were explored to identify common themes and their relation to the pre-service program and the teaching context. Qualitative methods were employed to gather and analyze the data. In depth, semi-structured interviews (Seidman, 1998) formed the primary data for probing the context and details of the teachers' experience as well as the personal meaning derived from first year practice. Teacher journals and teaching artifacts were utilized to validate and challenge the primary data. Through an open-coding technique (Strauss & Corbin, 1990) codes, and themes were generated from which assertions were made. The pedagogical perspectives apparent among the participants in this study emerged as six patterns in teaching method: (1) utilization of grouping strategies, (2) utilization of techniques that allow the students to help teach, (3) similar format of daily instructional strategy, (4) utilization of techniques intended to promote engagement, (5) utilization of review strategies, (6) assessment by daily monitoring and traditional tests, (7) restructuring content knowledge. Assertions from implicit theory data include: (1) Time constraints and lack of teaching experience made

  17. Increasing Access to Science Oriented Education Programmes in Tertiary Institutions in Ghana through Distance Education

    Science.gov (United States)

    Osei, C. K.; Mensah, J. A.

    2014-01-01

    There is emphasis in the educational policy of Ghana for the promotion of Distance Education programmes to widen access to education at all levels and facilitate human resource development. This study examined the level of access and challenges faced by learners in science oriented programmes offered by distance in the Kwame Nkrumah University of…

  18. A model for education and promoting food science and technology ...

    African Journals Online (AJOL)

    USER

    2010-08-02

    Aug 2, 2010 ... economics, hospitality management and nutrition/dietetics. FST operates at the .... strategy involved inviting food industry professionals to deliver talks and .... shared outcomes in this case is to see FST education and training alive ... in the concepts of food science and an awareness of food system will help ...

  19. MARKETING TOOLS FOR PROMOTING INNOVATIONS IN THE SYSTEM OF HIGHER EDUCATION

    Directory of Open Access Journals (Sweden)

    Natalya O. Kolchina

    2016-06-01

    Full Text Available Introduction: the article is concerned with the tools for promoting innovative educational products within the framework of the concept “Europe of knowledge” on the basis of education integration, researches and innovations. The relevance of the article is caused by increasing importance of promoting innovative products in the field of higher education through the means designed to popularize science not only among science professional, but also among the general public. Materials and Methods: the author uses descriptive method and analyzes the scholar literature on the promotion and introduction of innovative products in the field of education through the media. Results: the results show the need for using the exhibition activity parameters to introduce and implement the educational programmes “Tempus”, “Erasmus+”, and others, and to create relationship between universities and representatives of business communities from the partner countries. The authors emphasise the differences in the mechanism of impact on the target audience (a high school leaver, a student or a representative of a business community. The article presents a combination of essential elements in core objectives of the strategy “Europe 2020” (particularly in the context of priority of the rapid development and components of seven priority initiatives which determine the scheme for the strategic development of the EU member states in the field of education until 2020. Discussion and Conclusions: a professionally designed exposition, well-prepared advertising materials and adequate work with representatives of business communities and partner universities whihin the education exhibition can increase the number of applications to participate in the programme “Capicity-building in the field of higher education”. Promoting innovative products through using some marketing tools is differential in nature and indirectly related to the specifics of their posi

  20. Education in Soil Science: the Italian approach

    Science.gov (United States)

    Benedetti, Anna; Canfora, Loredana; Dazzi, Carmelo; Lo Papa, Giuseppe

    2017-04-01

    The Italian Society of Soil Science (SISS) was founded in Florence on February 18th, 1952. It is an association legally acknowledged by Decree of the President of the Italian Republic in February 1957. The Society is member of the International Union of Soil Sciences (IUSS) of the European Confederation of Soil Science Societies (ECSSS) and collaborates with several companies, institutions and organizations having similar objectives or policy aspects. SISS promotes progress, coordination and dissemination of soil science and its applications encouraging relationships and collaborations among soil lovers. Within the SISS there are Working Groups and Technical Committees for specific issues of interest. In particular: • the Working Group on Pedotechniques; • the Working Group on Hydromorphic and Subaqueous Soils and • the Technical Committee for Soil Education and Public Awareness. In this communication we wish to stress the activities developed since its foundation by SISS to spread soil awareness and education in Italy through this last Technical Committee, focusing also the aspect concerning grants for young graduates and PhD graduates to stimulate the involvement of young people in the field of soil science. Keywords: SISS, soil education and awareness.

  1. How Can Science Education Foster Students' Rooting?

    Science.gov (United States)

    Østergaard, Edvin

    2015-01-01

    The question of how to foster rooting in science education points towards a double challenge; efforts to "prevent" (further) uprooting and efforts to "promote" rooting/re-rooting. Wolff-Michael Roth's paper discusses the uprooting/rooting pair of concepts, students' feeling of alienation and loss of fundamental sense of the…

  2. Excavating silences and tensions of agency|passivity in science education reform

    Science.gov (United States)

    Rivera Maulucci, Maria S.

    2010-12-01

    I reflect on studies by Rodriguez and Carlone, Haun-Frank, and Kimmel to emphasize the ways in which they excavate silences in the science education literature related to linguistic and cultural diversity and situating the problem of reform in teachers rather than contextual factors, such as traditional schooling discourses and forces that serve to marginalize science. I propose that the current push for top-down reform and accountability diminishes opportunities for receptivity, learning with and from students in order to transform teachers' practices and promote equity in science education. I discuss tensions of agency and passivity in science education reform and argue that attention to authentic caring constitutes another silence in the science education literature. I conclude that the current policy context positions teachers and science education researchers as tempered radicals struggling against opp(reg)ressive reforms and that there is a need for more studies to excavate these and other silences.

  3. Networking of institutions in India to promote research and education in nuclear science and engineering

    International Nuclear Information System (INIS)

    Puri, R.R.

    2007-01-01

    will pool together the strength of each of its CI to accelerate the pace of basic research and its translation in to technology development. It would provide unique opportunity to students to learn from, and work with people having hands-on experience in the environment of highly advanced research facilities hardly available elsewhere in the country. It would promote interdisciplinary research essential for development of nuclear science and technology. The setting-up of HBNI is expected to attract those talented youngsters to nuclear science and engineering who are looking for intellectual challenges and recognition of their efforts in terms of formal degrees. The networking of the DAE Institutes under the umbrella of HBNI is a unique experiment to promote research and education in nuclear science and engineering in India. In the years to come, admission to HBNI may be opened to students from other countries. (author)

  4. Developing a Material-Dialogic Approach to Pedagogy to Guide Science Teacher Education

    Science.gov (United States)

    Hetherington, Lindsay; Wegerif, Rupert

    2018-01-01

    Dialogic pedagogy is being promoted in science teacher education but the literature on dialogic pedagogy tends to focus on explicit voices, and so runs the risk of overlooking the important role that material objects often play in science education. In this paper we use the findings of a teacher survey and classroom case study to argue that there…

  5. Science and Technology Education in the STES Context in Primary Schools: What Should It Take?

    Science.gov (United States)

    Zoller, Uri

    2011-10-01

    Striving for sustainability requires a paradigm shift in conceptualization, thinking, research and education, particularly concerning the science-technology-environment-society (STES) interfaces. Consequently, `STES literacy' requires the development of students' question asking, critical, evaluative system thinking, decision making and problem solving capabilities, in this context, via innovative implementable higher-order cognitive skills (HOCS)-promoting teaching, assessment and learning strategies. The corresponding paradigms shift in science and technology education, such as from algorithmic teaching to HOCS-promoting learning is unavoidable, since it reflects the social pressure, worldwide, towards more accountable socially- and environmentally-responsible sustainable development. Since most of the STES- and, recently STEM (science-technology-engineering-mathematics)-related research in science education has been focused on secondary and tertiary education, it is vital to demonstrate the relevance of this multifaceted research to the science and technology teaching in primary schools. Our longitudinal STES education-related research and curriculum development point to the very little contribution, if any, of the traditional science teaching to "know", to the development of students' HOCS capabilities. On the other hand, there appears to be a `general agreement', that the contemporary dominant lower-order cognitive skills (LOCS) teaching and assessment strategies applied in science and technology education are, in fact, restraining the natural curiosity and creativity of primary school (and younger?) pupils/children. Since creative thinking as well as evaluative system thinking, decision making, problem solving and … transfer constitute an integral part of the HOCS conceptual framework, the appropriateness of "HOCS promoting" teaching, and the relevance of science and technology, to elementary education in the STES context, is apparent. Therefore, our

  6. Hands-On Math and Art Exhibition Promoting Science Attitudes and Educational Plans

    Directory of Open Access Journals (Sweden)

    Helena Thuneberg

    2017-01-01

    Full Text Available The current science, technology, engineering, art, math education (STEAM approach emphasizes integration of abstract science and mathematical ideas for concrete solutions by art. The main aim was to find out how experience of learning mathematics differed between the contexts of school and an informal Math and Art Exhibition. The study participants (N=256 were 12-13 years old from Finland. Several valid questionnaires and tests were applied (e.g., SRQ-A, RAVEN in pre- and postdesign showing a good reliability. The results based on General Linear Modeling and Structural Equation Path Modeling underline the motivational effects. The experience of the effectiveness of hands-on learning at school and at the exhibition was not consistent across the subgroups. The lowest achieving group appreciated the exhibition alternative for math learning compared to learning math at school. The boys considered the exhibition to be more useful than the girls as it fostered their science and technology attitudes. However, for the girls, the attractiveness of the exhibition, the experienced situation motivation, was much more strongly connected to the attitudes on science and technology and the worthiness of mathematics. Interestingly, the pupils experienced that even this short informal learning intervention affected their science and technology attitudes and educational plans.

  7. TRUST: A Successful Formal-Informal Teacher Education Partnership Designed to Improve and Promote Urban Earth Science Education

    Science.gov (United States)

    Sloan, H.; Drantch, K.; Steenhuis, J.

    2006-12-01

    We present an NSF-funded collaborative formal-informal partnership for urban Earth science teacher preparation and professional development. This model brings together The American Museum of Natural History (AMNH) and Brooklyn and Lehman College of the City University of New York (CUNY) to address science-impoverished classrooms that lack highly qualified teachers by focusing on Earth science teacher certification. Project design was based on identified needs in the local communities and schools, careful analysis of content knowledge mastery required for Earth science teacher certification, and existing impediments to certification. The problem-based approach required partners to push policy envelopes and to invent new ways of articulating content and pedagogy at both intra- and inter-institutional levels. One key element of the project is involvement of the local board of education, teachers, and administrators in initial design and ongoing assessment. Project components include formal Earth systems science courses, a summer institute primarily led and delivered by AMNH scientists through an informal series of lectures coupled to workshops led by AMNH educators, a mechanism for assigning course credit for informal experiences, development of new teaching approaches that include teacher action plans and an external program of evaluation. The principal research strand of this project focuses on the resulting model for formal-informal teacher education partnership, the project's impact on participating teachers, policy issues surrounding the model and the changes required for its development and implementation, and its potential for Earth science education reform. As the grant funded portion of the project draws to a close we begin to analyze data collected over the past 3 years. Third-year findings of the project's external evaluation indicate that the problem-based approach has been highly successful, particularly its impact on participating teachers. In addition

  8. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education; Volume 18; Issue 3. Plant Growth Promoting Rhizobacteria - Potential Microbes for Sustainable Agriculture. Jay Shankar Singh. General Article Volume 18 Issue 3 March 2013 pp 275-281 ...

  9. Communicating Ocean Sciences College Courses: Science Faculty and Educators Working and Learning Together

    Science.gov (United States)

    Halversen, C.; Simms, E.; McDonnell, J. D.; Strang, C.

    2011-12-01

    scientists with experience using exemplary, research-based instructional materials that incorporate current learning theories and teaching strategies; 5) promote mutually beneficial collaborations between scientists and educators co-teaching the course; and 6) provide underrepresented K-12 students and visitors to informal science institutions with ocean sciences instruction and the opportunity to interact with the next generation of scientists. Evaluation findings over five years show that the course can be an effective mechanism to introduce scientists to education research and improve post-secondary science instruction. Students improved in their understanding of how people learn and how to effectively communicate. Science faculty reported that the course provided them with a heightened awareness and practical knowledge of learning theory and education research, and as a result, they felt they became more effective educators and communicators. This has implications for their work with future and fellow scientists, and the general public.

  10. Gaming science innovations to integrate health systems science into medical education and practice.

    Science.gov (United States)

    White, Earla J; Lewis, Joy H; McCoy, Lise

    2018-01-01

    Health systems science (HSS) is an emerging discipline addressing multiple, complex, interdependent variables that affect providers' abilities to deliver patient care and influence population health. New perspectives and innovations are required as physician leaders and medical educators strive to accelerate changes in medical education and practice to meet the needs of evolving populations and systems. The purpose of this paper is to introduce gaming science as a lens to magnify HSS integration opportunities in the scope of medical education and practice. Evidence supports gaming science innovations as effective teaching and learning tools to promote learner engagement in scientific and systems thinking for decision making in complex scenarios. Valuable insights and lessons gained through the history of war games have resulted in strategic thinking to minimize risk and save lives. In health care, where decisions can affect patient and population outcomes, gaming science innovations have the potential to provide safe learning environments to practice crucial decision-making skills. Research of gaming science limitations, gaps, and strategies to maximize innovations to further advance HSS in medical education and practice is required. Gaming science holds promise to equip health care teams with HSS knowledge and skills required for transformative practice. The ultimate goals are to empower providers to work in complex systems to improve patient and population health outcomes and experiences, and to reduce costs and improve care team well-being.

  11. An Examination of Black Science Teacher Educators' Experiences with Multicultural Education, Equity, and Social Justice

    Science.gov (United States)

    Atwater, Mary M.; Butler, Malcolm B.; Freeman, Tonjua B.; Carlton Parsons, Eileen R.

    2013-12-01

    Diversity, multicultural education, equity, and social justice are dominant themes in cultural studies (Hall in Cultural dialogues in cultural studies. Routledge, New York, pp 261-274, 1996; Wallace 1994). Zeichner (Studying teacher education: The report of the AERA panel on research and teacher education. Lawrence Erlbaum Associates, Mahwah, pp 737-759, 2005) called for research studies of teacher educators because little research exists on teacher educators since the late 1980s. Thomson et al. (2001) identified essential elements needed in order for critical multiculturalism to be infused in teacher education programs. However, little is known about the commitment and experiences of science teacher educators infusing multicultural education, equity, and social justice into science teacher education programs. This paper examines twenty (20) Black science teacher educators' teaching experiences as a result of their Blackness and the inclusion of multicultural education, equity, and social justice in their teaching. This qualitative case study of 20 Black science teacher educators found that some of them have attempted and stopped due to student evaluations and the need to gain promotion and tenure. Other participants were able to integrate diversity, multicultural education, equity and social justice in their courses because their colleagues were supportive. Still others continue to struggle with this infusion without the support of their colleagues, and others have stopped The investigators suggest that if science teacher educators are going to prepare science teachers for the twenty first century, then teacher candidates must be challenged to grapple with racial, ethnic, cultural, instructional, and curricular issues and what that must mean to teach science to US students in rural, urban, and suburban school contexts.

  12. Erasmus Darwin's Deistic Dissent and Didactic Epic Poetry: Promoting Science Education to a Mixed Audience Under the Banner of Tolerance

    Science.gov (United States)

    Martin, Kirsten Anne

    Erasmus Darwin's task as a Deistic Dissenter poet who wished to promote science education to a mixed audience was complex. There was mainstream concern over what Deists and Dissenters actually believed about God, their involvement in science, and, especially, how their published works, whatever the subject, might affect public morality and politics. I argue that Darwin's poetry is primarily in the genre of Lucretian didactic epic but that it also involves elements of other written traditions (literary and non-literary). I focus on English didactic poetry, the theological written traditions of Dissent and Deism, and a particular tradition of erotic satire. The genre of Lucretian didactic epic and the tradition of English didactic poetry are non-identical. In Darwin's Lucretian didactic epic, resemblances to such poems as Pope's Essay on Man challenge ideas about what kind of narrative a didactic poem in the English language can deliver. Techniques from the theological written traditions of Dissent and Deism reflect Darwin's affiliations, signal that science education fits within a larger debate about intellectual freedom, and promote tolerance for differences of opinion about nature. Mimicry of a particular tradition of erotic satire helps to downplay the address to a mixed audience while satirising some common misconceptions about poetry, botany, and women in the period. Darwin's poetry challenges ideas about what people from his community of belief meant to communicate or transmit by writing for the general public, what the general public was entitled to learn, and what poetry was able to teach. Perhaps Darwin's biggest modification of Lucretian didactic epic was that he did not tell his readers exactly what to think, but how.

  13. European Meteorological Society and education in atmospheric sciences

    Science.gov (United States)

    Halenka, T.; Belda, M.

    2010-09-01

    EMS is supporting the exchange of information in the area of education in atmospheric sciences as one of its priority and organizing the educational sessions during EMS annual meetings as a good occasion for such an exchange. Brief thought will be given to the fate of the series of International Conferences on School and Popular Meteorological and Oceanographic Education - EWOC (Education in Weather, Ocean and Climate) and to the project oriented basis of further cooperation in education in atmospheric sciences across Europe. Another tool of EMS is the newly established and developed EDU portal of EMS. In most European countries the process of integration of education at university level was started after Bologna Declaration with the objective to have the system where students on some level could move to another school, or rather university. The goal is to achieve the compatibility between the systems and levels in individual countries to have no objections for students when transferring between the European countries. From this point of view EMS is trying to provide the information about the possibility of education in meteorology and climatology in different countries in centralised form, with uniform shape and content, but validated on national level. In most European countries the necessity of education in Science and Mathematics to achieve higher standard and competitiveness in research and technology development has been formulated after the Lisboa meeting. The European Meteorological Society is trying to follow this process with implication to atmospheric sciences. One of the important task of the EMS is the activity to promote public understanding of meteorology (and sciences related to it), and the ability to make use of it, through schools and more generally. One of the elements of EMS activity is the analysis of the position of atmospheric science in framework of curricula in educational systems of European countries as well as in more general sense, the

  14. Virtue ethics, positive psychology, and a new model of science and engineering ethics education.

    Science.gov (United States)

    Han, Hyemin

    2015-04-01

    This essay develops a new conceptual framework of science and engineering ethics education based on virtue ethics and positive psychology. Virtue ethicists and positive psychologists have argued that current rule-based moral philosophy, psychology, and education cannot effectively promote students' moral motivation for actual moral behavior and may even lead to negative outcomes, such as moral schizophrenia. They have suggested that their own theoretical framework of virtue ethics and positive psychology can contribute to the effective promotion of motivation for self-improvement by connecting the notion of morality and eudaimonic happiness. Thus this essay attempts to apply virtue ethics and positive psychology to science and engineering ethics education and to develop a new conceptual framework for more effective education. In addition to the conceptual-level work, this essay suggests two possible educational methods: moral modeling and involvement in actual moral activity in science and engineering ethics classes, based on the conceptual framework.

  15. 18 MArch 2008 - Director, Basic and Generic Research Division, Research Promotion Bureau, Japanese Ministry of Education, Culture, Sports, Science and Technology Prof.Ohtake visiting ATLAS cavern with Spokesperson P. Jenni.

    CERN Multimedia

    Maximilien Brice

    2008-01-01

    18 MArch 2008 - Director, Basic and Generic Research Division, Research Promotion Bureau, Japanese Ministry of Education, Culture, Sports, Science and Technology Prof.Ohtake visiting ATLAS cavern with Spokesperson P. Jenni.

  16. Data Curation Education Grounded in Earth Sciences and the Science of Data

    Science.gov (United States)

    Palmer, C. L.

    2015-12-01

    This presentation looks back over ten years of experience advancing data curation education at two Information Schools, highlighting the vital role of earth science case studies, expertise, and collaborations in development of curriculum and internships. We also consider current data curation practices and workforce demand in data centers in the geosciences, drawing on studies conducted in the Data Curation Education in Research Centers (DCERC) initiative and the Site-Based Data Curation project. Outcomes from this decade of data curation research and education has reinforced the importance of key areas of information science in preparing data professionals to respond to the needs of user communities, provide services across disciplines, invest in standards and interoperability, and promote open data practices. However, a serious void remains in principles to guide education and practice that are distinct to the development of data systems and services that meet both local and global aims. We identify principles emerging from recent empirical studies on the reuse value of data in the earth sciences and propose an approach for advancing data curation education that depends on systematic coordination with data intensive research and propagation of current best practices from data centers into curriculum. This collaborative model can increase both domain-based and cross-disciplinary expertise among data professionals, ultimately improving data systems and services in our universities and data centers while building the new base of knowledge needed for a foundational science of data.

  17. Systematically reviewing the potential of concept mapping technologies to promote self-regulated learning in primary and secondary science education

    DEFF Research Database (Denmark)

    Stevenson, Matt P.; Hartmeyer, Rikke; Bentsen, Peter

    2017-01-01

    We systematically searched five databases to assess the potential of concept mapping-based technologies to promote self-regulated learning in science education. Our search uncovered 17 relevant studies that investigated seven different types of learning technologies. We performed a narrative....... Computer software was particularly useful for developing cognitive strategies through ease of use. Teaching agents were particularly useful for developing metacognitive strategies by coupling visualisation of knowledge patterns with performance monitoring, aided by a teaching metaphor. Finally, mobile...... devices and teaching agents were most effective in enhancing motivation. Effects on knowledge gains remain unclear due to small sample sizes....

  18. The effectiveness of a popular science promotion program on nanotechnology for elementary school students in I-Lan City

    Science.gov (United States)

    Lin, Show-Yu; Wu, Ming-Ta; Cho, Ya-I.; Chen, Hui-Huang

    2015-01-01

    Background:Nanotechnology education has become an urgent priority to nurture skilled human resources for the rapidly developing nanotechnology-related industries. The promotion of popular science education focusing on nanotechnology is an ideal approach to bridge the gaps in formal curricula, and to stimulate curiosity about and interest in nanotechnology among schoolchildren. Purpose:The objective of this study was to evaluate the effectiveness of the Nanotechnology-based Popular Science Education Promotion and Teaching (NPSEPT) program through camp activity that was implemented in elementary schools in I-Lan City, Taiwan. Program description:To create a competitive advantage, a human resources development program was implemented as one of the nanotechnology incubation projects in Taiwan and focused on developing an appropriately-skilled professional workforce as well as promoting popular science education. Sample:The volunteer research participants were 323 sixth grade students in four elementary schools in I-Lan City, Taiwan, who were evaluated at the beginning and the end of the nanotechnology-based popular science promotion camp activity. Design and methods:A research tool called the 'NPSEPT test' was designed specifically for this study and was approved by experts who evaluated its content and face validity. The questionnaire was divided into three aspects: 'Nanophenomena in the natural world'; 'Nanomaterials and their scaling effects'; and 'Definition, characteristics, and applications of nanotechnology.' The effectiveness of learning among the students was analyzed using descriptive statistics, a paired sample t-test, analysis of variance (ANOVA) and a post hoc comparison. Results:The results of the three-part 'NPSEPT test' revealed that NPSEPT significantly advanced nanotechnology learning performance and outcomes among students in the four participating elementary schools. Of the 15 questions included in the NPSEPT test, positive change for more than 30

  19. The effects of two secondary science teacher education program structures on teachers' habits of mind and action

    Science.gov (United States)

    Bergman, Daniel Jay

    2007-12-01

    This study investigated the effects of the Iowa State University Secondary Science Teacher Education Program (ISU SSTEP) on the educational goals and habits of mind exhibited by its graduates. Ten teachers from ISU SSTEP participated in the study---five from the former program featuring one semester of science teaching methods, five from the current program featuring three semesters of science teaching methods (four for the graduate certification consortium). A naturalistic inquiry research approach included the following methods used with each teacher: three classroom observations, classroom artifact analysis, teacher questionnaires and semi-structured interviews, and questionnaires for students about perceived emphasis of educational goals. Evidence exists that graduates from the current ISU SSTEP format exhibited a closer match to the educational goals promoted, modeled, and advocated by the science teaching methods faculty. Graduates from the current ISU SSTEP also exhibited a closer match to the habits of mind---understanding, action, reflection, action plan for improvement---promoted and modeled by the program. This study has implications for other secondary science teacher education programs, particularly increasing the number of science teaching methods courses; teaching meaningful content of both concepts and skills through a research-based framework; modeling the appropriate teacher behaviors, strategies, habits, and goal promotion by methods instructors; and addressing issues of institutional constraints experienced by future teachers.

  20. Scientifically speaking: Identifying, analyzing, and promoting science talk in small groups

    Science.gov (United States)

    Holthuis, Nicole Inamine

    In this dissertation I define, document, and analyze the nature of students' science talk as they work in cooperative learning groups. Three questions form the basis of this research. First, what is science talk? Second, how much and what kind of science talk did students do? And, third, what conditions help promote or inhibit students' science talk? This study was conducted in a total of six classrooms in three high schools. I videotaped and audiotaped students as they worked in small groups during the course of an ecology unit. I analyzed this videotape data and field notes using both quantitative and qualitative methods. I define science talk as talk that serves to move students along in terms of the science (both content and process) required or suggested by the activity. More specifically, I identified five epistemological characteristics that delineate what counts as scientific knowledge and, subsequently, science talk. From this definition, I developed an analytic framework and science talk observation instrument to document the quantity and level of student and teacher talk during groupwork. Analysis of the data from this instrument indicates that the overall level of students' science talk is considerable and students do significantly more science talk than school talk. I also found that while the overall level and type of science talk does not vary by class or by school, it does vary by activity type. Finally, my analysis suggests that science talk does not vary by gender composition of the group. I explored the classroom conditions that promote or inhibit science talk during groupwork. My findings suggest that, among other things, teachers can promote science talk by delegating authority to students, by emphasizing content and the big idea, by implementing open-ended tasks, and by modeling science talk. In conclusion, the findings described in this dissertation point teachers and researchers toward ways in which they may improve practice in order to

  1. Making science education meaningful for American Indian students: The effect of science fair participation

    Science.gov (United States)

    Welsh, Cynthia Ann

    Creating opportunities for all learners has not been common practice in the United States, especially when the history of Native American educational practice is examined (Bull, 2006; Chenoweth, 1999; Starnes, 2006a). The American Indian Science and Engineering Society (AISES) is an organization working to increase educational opportunity for American Indian students in science, engineering, and technology related fields (AISES, 2005). AISES provides pre-college support in science by promoting student science fair participation. The purpose of this qualitative research is to describe how American Indian student participation in science fairs and the relationship formed with their teacher affects academic achievement and the likelihood of continued education beyond high school. Two former American Indian students mentored by the principal investigator participated in this study. Four ethnographic research methods were incorporated: participant observation, ethnographic interviewing, search for artifacts, and auto-ethnographic researcher introspection (Eisenhart, 1988). After the interview transcripts, photos documenting past science fair participation, and researcher field notes were analyzed, patterns and themes emerged from the interviews that were supported in literature. American Indian academic success and life long learning are impacted by: (a) the effects of racism and oppression result in creating incredible obstacles to successful learning, (b) positive identity formation and the importance of family and community are essential in student learning, (c) the use of best practice in science education, including the use of curricular cultural integration for American Indian learners, supports student success, (d) the motivational need for student-directed educational opportunities (science fair/inquiry based research) is evident, (e) supportive teacher-student relationships in high school positively influences successful transitions into higher education. An

  2. Towards a truer multicultural science education: how whiteness impacts science education

    Science.gov (United States)

    Le, Paul T.; Matias, Cheryl E.

    2018-03-01

    The hope for multicultural, culturally competent, and diverse perspectives in science education falls short if theoretical considerations of whiteness are not entertained. Since whiteness is characterized as a hegemonic racial dominance that has become so natural it is almost invisible, this paper identifies how whiteness operates in science education such that it falls short of its goal for cultural diversity. Because literature in science education has yet to fully entertain whiteness ideology, this paper offers one of the first theoretical postulations. Drawing from the fields of education, legal studies, and sociology, this paper employs critical whiteness studies as both a theoretical lens and an analytic tool to re-interpret how whiteness might impact science education. Doing so allows the field to reconsider benign, routine, or normative practices and protocol that may influence how future scientists of Color experience the field. In sum, we seek to have the field consider the theoretical frames of whiteness and how it might influence how we engage in science education such that our hope for diversity never fully materializes.

  3. School health education and promotion

    DEFF Research Database (Denmark)

    Leahy, Deana; Simovska, Venka

    2018-01-01

    Purpose - This Special Issue is the second in a series that aims to place the spotlight on educational research and its contribution to the field of school-based health and wellbeing promotion. The purpose of both special issues is to bring together scholars from across the world to consider...... current developments in research on curricula, interventions, policies and practices concerning health education and promotion and related professional development of teachers. Design/methodology/approach – As in the first Special Issue published in 2017 (School health education and promotion: Health...... and wellbeing promotion. Additionally, an open call for papers was published on the Health Education website and on the EERA website. There was considerable interest from those such as researchers, scholars and practitioners, and as a result, we have been able to publish a second Special Issue. Findings...

  4. Science school and culture school: improving the efficiency of high school science teaching in a system of mass science education.

    Science.gov (United States)

    Charlton, Bruce G

    2006-01-01

    Educational expansion in western countries has been achieved mainly by adding years to full-time education; however, this process has probably reduced efficiency. Sooner or later, efficiency must improve, with a greater educational attainment per year. Future societies will probably wish more people to study science throughout high school (aged c. 11-19 years) and the first college degree. 'Science' may be defined as any abstract, systematic and research-based discipline: including mathematics, statistics and the natural sciences, economics, music theory, linguistics, and the conceptual or quantitative social sciences. Since formal teaching is usually necessary to learn science, science education should be regarded as the core function of high schools. One standard way to improve efficiency is the 'division of labour', with increased specialization of function. Modern schools are already specialized: teachers are specialized according to age-group taught, subject matter expertise, and administrative responsibilities. School students are stratified by age and academic aptitude. I propose a further institutional division of school function between science education, and cultural education (including education in arts, sports, ethics, social interaction and good citizenship). Existing schools might split into 'science school' and 'culture school', reflected in distinct buildings and zones, separate administrative structures, and the recruitment of differently-specialized teaching personnel. Science school would be distinguished by its focus on education in disciplines which promote abstract systematic cognition. All students would spend some part of each day (how much would depend on their aptitude and motivation) in the 'science school'; experiencing a traditional-style, didactic, disciplined and rigorous academic education. The remainder of the students' time at school would be spent in the cultural division, which would focus on broader aspects, and aim to generate

  5. Improving epistemological beliefs and moral judgment through an STS-based science ethics education program.

    Science.gov (United States)

    Han, Hyemin; Jeong, Changwoo

    2014-03-01

    This study develops a Science-Technology-Society (STS)-based science ethics education program for high school students majoring in or planning to major in science and engineering. Our education program includes the fields of philosophy, history, sociology and ethics of science and technology, and other STS-related theories. We expected our STS-based science ethics education program to promote students' epistemological beliefs and moral judgment development. These psychological constructs are needed to properly solve complicated moral and social dilemmas in the fields of science and engineering. We applied this program to a group of Korean high school science students gifted in science and engineering. To measure the effects of this program, we used an essay-based qualitative measurement. The results indicate that there was significant development in both epistemological beliefs and moral judgment. In closing, we briefly discuss the need to develop epistemological beliefs and moral judgment using an STS-based science ethics education program.

  6. How Commercial and "Violent" Video Games Can Promote Culturally Sensitive Science Learning: Some Questions and Challenges

    Science.gov (United States)

    Kwah, Helen

    2012-01-01

    In their paper, Munoz and El-Hani propose to bring video games into science classrooms to promote culturally sensitive ethics and citizenship education. Instead of bringing "educational" games, Munoz and El-Hani take a more creative route and include games such as Fallout 3[R] precisely because they are popular and they reproduce ideological and…

  7. Evaluating Education and Science in the KSC Visitor Complex Exhibits

    Science.gov (United States)

    Erickson, Lance K.

    2000-01-01

    The continuing development of exhibits at the Kennedy Space Center's Visitor Complex is an excellent opportunity for NASA personnel to promote science and provide insight into NASA programs and projects for the approximately 3 million visitors that come to KSC annually. Stated goals for the Visitor Complex, in fact, emphasize science awareness and recommend broadening the appeal of the displays and exhibits for all age groups. To this end, this summer project seeks to evaluate the science content of planned exhibits/displays in relation to these developing opportunities and identify specific areas for enhancement of existing or planned exhibits and displays. To help expand the educational and science content within the developing exhibits at the Visitor Complex, this project was structured to implement the goals of the Visitor Center Director. To accomplish this, the exhibits and displays planned for completion within the year underwent review and evaluation for science content and educational direction. Planning emphasis for the individual displays was directed at combining the elements of effective education with fundamental scientific integrity, within an appealing format.

  8. Using Art to Enhance the Learning of Math and Science: Developing an Educational Art-Science Kit about Fractal Patterns in Nature

    Science.gov (United States)

    Rao, Deepa

    This study documents the development of an educational art-science kit about natural fractals, whose aim is to unite artistic and scientific inquiry in the informal learning of science and math. Throughout this research, I argue that having an arts-integrated approach can enhance the learner of science and math concepts. A guiding metaphor in this thesis is the Enlightenment-era cabinet of curiosities that represents a time when art and science were unified in the process of inquiry about the natural world. Over time, increased specialization in the practice of arts and science led to a growing divergence between the disciplines in the educational system. Recently, initiatives like STEAM are underway at the national level to integrate "Arts and Design" into the Science, Technology, Engineering, and Math (STEM) formal education agenda. Learning artifacts like science kits present an opportunity to unite artistic and scientific inquiry in informal settings. Although science kits have been introduced to promote informal learning, presently, many science kits have a gap in their design, whereby the activities consist of recipe-like instructions that do not encourage further inquiry-based learning. In the spirit of the cabinet of curiosities, this study seeks to unify visual arts and science in the process of inquiry. Drawing from educational theories of Dewey, Piaget, and Papert, I developed a novel, prototype "art-science kit" that promotes experiential, hands-on, and active learning, and encourages inquiry, exploration, creativity, and reflection through a series of art-based activities to help users learn science and math concepts. In this study, I provide an overview of the design and development process of the arts-based educational activities. Furthermore, I present the results of a pilot usability study (n=10) conducted to receive user feedback on the designed materials for use in improving future iterations of the art-science fractal kit. The fractal kit

  9. Using Computer Simulations for Promoting Model-based Reasoning. Epistemological and Educational Dimensions

    Science.gov (United States)

    Develaki, Maria

    2017-11-01

    Scientific reasoning is particularly pertinent to science education since it is closely related to the content and methodologies of science and contributes to scientific literacy. Much of the research in science education investigates the appropriate framework and teaching methods and tools needed to promote students' ability to reason and evaluate in a scientific way. This paper aims (a) to contribute to an extended understanding of the nature and pedagogical importance of model-based reasoning and (b) to exemplify how using computer simulations can support students' model-based reasoning. We provide first a background for both scientific reasoning and computer simulations, based on the relevant philosophical views and the related educational discussion. This background suggests that the model-based framework provides an epistemologically valid and pedagogically appropriate basis for teaching scientific reasoning and for helping students develop sounder reasoning and decision-taking abilities and explains how using computer simulations can foster these abilities. We then provide some examples illustrating the use of computer simulations to support model-based reasoning and evaluation activities in the classroom. The examples reflect the procedure and criteria for evaluating models in science and demonstrate the educational advantages of their application in classroom reasoning activities.

  10. Inter-organizational relations for regional development: an expansion policy promoted by the federal network of professional education, science & technology

    Directory of Open Access Journals (Sweden)

    Cleidson Nogueira Dias

    2014-12-01

    Full Text Available This research paper examines the importance of inter-organizational network management as a government policy tool to promote regional development. This pattern requires Federal Government intervention so as to compensate for the imbalance that this causes and to guarantee that economic growth resulting from government actions leads to development in all regions of the country, thereby avoiding the traditional mechanisms of wealth concentration. For this, a methodology of content analysis was used based on a relevant public policy aimed at promoting development within Brazil and by analyzing the data collected in relation to the current theory related to strategy, local development and inter-organizational networks in general.  The analysis results show that, when the policy studied in this work, applied in the federal network of professional education, science & technology, was implemented the networks had a positive influence on the outcome of the policy objectives and represented an extremely powerful support tool, being one of the most important factors to boost development.

  11. Does science education need the history of science?

    Science.gov (United States)

    Gooday, Graeme; Lynch, John M; Wilson, Kenneth G; Barsky, Constance K

    2008-06-01

    This essay argues that science education can gain from close engagement with the history of science both in the training of prospective vocational scientists and in educating the broader public about the nature of science. First it shows how historicizing science in the classroom can improve the pedagogical experience of science students and might even help them turn into more effective professional practitioners of science. Then it examines how historians of science can support the scientific education of the general public at a time when debates over "intelligent design" are raising major questions over the kind of science that ought to be available to children in their school curricula. It concludes by considering further work that might be undertaken to show how history of science could be of more general educational interest and utility, well beyond the closed academic domains in which historians of science typically operate.

  12. Career education attitudes and practices of K-12 science educators

    Science.gov (United States)

    Smith, Walter S.

    A random sample of 400 K-12 science educators who were members of the National Science Teachers Association were surveyed regarding their attitude toward and practice of career education in their science teaching. These science teachers rejected a narrowly vocational view, favoring instead a conception of career education which included self-perception, values analysis, and vocational skills objectives. The science educators affirmed the importance of career education for a student's education, asserted career education ought to be taught in their existing science courses, and expressed a willingness to do so. Fewer than one-third of the science teachers, however, reported incorporating career education at least on a weekly basis in their science lessons. The major impediment to including more career education in science teaching was seen to be their lack of knowledge of methods and materials relevant to science career education, rather than objections from students, parents, or administrators; their unwillingness; or their evaluation of career education as unimportant. Thus, in order to improve this aspect of science teaching, science teachers need more concrete information about science career education applications.

  13. Promoting Lifelong Ocean Education: Shaping Tomorrow's Earth Stewards and the Science and Technology Workforce

    Science.gov (United States)

    Meeson, Blanche

    2006-01-01

    The coming ocean observing systems provide an unprecedented opportunity to change both the public perception of our oceans, and to inspire, captivate and motivate our children, our young adults and even our fellow adults to pursue careers allied with the oceans and to become stewards of our Planet's last unexplored environment. Education plans for the operational component, the Integrated Ocean Observing System (IOOS), and for the research component, Ocean Research Interactive Observatory Networks (ORION), are designed to take advantage of this opportunity. In both cases, community recommendations were developed within the context of the following assumptions: 1. Utilize research on how people learn, especially the four-pronged model of simultaneous learner-centered, knowledge-center, assessment-centered and community-centered learning 2. Strive for maximum impact on national needs in science and technology learning 3. Build on the best of what is already in place 4. Pay special attention to quality, sustainability, and scalability of efforts 5. Use partnerships across federal, state and local government, academia, and industry. Community recommendations for 100s and ORION education have much in common and offer the opportunity to create a coherent education effort allied with ocean observing systems. Both efforts focus on developing the science and technology workforce of the future, and the science and technology literacy of the public within the context of the Earth system and the role of the oceans and Great Lakes in that system. Both also recognize that an organized education infrastructure that supports sustainability and scalability of education efforts is required if ocean observing education efforts are to achieve a small but measurable improvement in either of these areas. Efforts have begun to develop the education infrastructure by beginning to form a community of educators from existing ocean and aquatic education networks and by exploring needs and

  14. Creating a Dialogic Environment for Transformative Science Teaching Practices: Towards an Inclusive Education for Science

    Science.gov (United States)

    Reynaga-Peña, Cristina G.; Sandoval-Ríos, Marisol; Torres-Frías, José; López-Suero, Carolina; Lozano Garza, Adrián; Dessens Félix, Maribel; González Maitland, Marcelino; Ibanez, Jorge G.

    2018-01-01

    This paper focuses on the design and application of a teacher training strategy to promote the inclusive education of students with disabilities in the science classroom, through the creation of adult learning environments grounded on the principles of dialogic learning. Participants of the workshop proposal consisted of a group of twelve teachers…

  15. Nuclear science and technology education and training in Indonesia

    International Nuclear Information System (INIS)

    Karsono

    2007-01-01

    Deployment of nuclear technology requires adequate nuclear infrastructure which includes governmental infrastructure, science and technology infrastructure, education and training infrastructure, and industrial infrastructure. Governmental infrastructure in nuclear, i.e. BATAN (the National Nuclear Energy Agency) and BAPETEN (the Nuclear Energy Control Agency), need adequate number of qualified manpower with general and specific knowledge of nuclear. Science and technology infrastructure is mainly contained in the R and D institutes, education and training centers, scientific academies and professional associations, and national industry. The effectiveness of this infrastructure mainly depends on the quality of the manpower, in addition to the funding and available facilities. Development of human resource needed for research, development, and utilization of nuclear technology in the country needs special attention. Since the national industry is still in its infant stage, the strategy for HRD (human resource development) in the nuclear field addresses the needs of the following: BATAN for its research and development, promotion, and training; BAPETEN for its regulatory functions and training; users of nuclear technology in industry, medicine, agriculture, research, and other areas; radiation safety officers in organizations or institutions licensed to use radioactive materials; the education sector, especially lecturers and teachers, in tertiary and secondary education. Nuclear science and technology is a multidisciplinary and a highly specialized subject. It includes areas such as nuclear and reactor physics, thermal hydraulics, chemistry, material science, radiation protection, nuclear safety, health science, and radioactive waste management. Therefore, a broad nuclear education is absolutely essential to master the wide areas of science and technology used in the nuclear domain. The universities and other institutions of higher education are the only

  16. Redefining Scientist-Educator Partnerships: Science in Service at Stanford

    Science.gov (United States)

    Beck, K.

    2005-05-01

    The Stanford Solar Observatories Group and Haas Center for Public Service have created an innovative model for scientist-educator partnerships in which science students are trained and mentored by public service education professionals to create outreach events for local communities. The program, Science in Service, is part of the EPO plan for the Solar Group's participation in NASA's Solar Dynamics Observatory mission. Based on the principles of service learning, the Science in Service Program mentors college science students in best practices for communicating science and engages these students in public service projects that center on teaching solar science. The program goals are to - Enhance and expand the learning experiences that pre-college students, from underserved and underrepresented groups in particular, have in science and technology. - Promote leadership in community service in the area of science and engineering among the next generation of scientists and engineers, today's undergraduate students. - Encourage science and engineering faculty to think creatively about their outreach requirements and to create a community of faculty committed to quality outreach programs. This talk will describe the unique advantages and challenges of a research-public service partnership, explain the structure of Stanford's Science in Service Program, and present the experiences of the undergraduates and the outreach communities that have been involved in the program.

  17. [Health education, patient education and health promotion: educational methods and strategies].

    Science.gov (United States)

    Sandrin, Brigitte

    2013-01-01

    The purpose of this paper is to help public health actors with an interest in health promotion and health care professionals involved in therapeutic education to develop and implement an educational strategy consistent with their vision of health and health care. First, we show that the Ottawa Charter for Health Promotion and the French Charter for Popular Education share common values. Second, an examination of the career and work of Paulo Freire, of Ira Shor's pedagogical model and of the person-centered approach of Carl Rogers shows how the work of educational practitioners, researchers and theorists can help health professionals to implement a truly "health-promoting" or "therapeutic" educational strategy. The paper identifies a number of problems facing health care professionals who become involved in education without reflecting on the values underlying the pedagogical models they use.

  18. Fermilab Friends for Science Education | Welcome

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Fermilab Friends for Science Education photo Fermilab Friends for Science Education supports innovative science education programs at Fermilab. Its mission is to: Enhance the quality of precollege science education in

  19. Nebraska Earth Science Education Network: Enhancing the NASA, University, and Pre-College Science Teacher Connection with Electronic Communication

    Science.gov (United States)

    Gosselin, David C.

    1997-01-01

    The primary goals of this project were to: 1. Promote and enhance K-12 earth science education; and enhance the access to and exchange of information through the use of digital networks in K-12 institutions. We have achieved these two goals. Through the efforts of many individuals at the University of Nebraska-Lincoln (UNL), Nebraska Earth Science Education Network (NESEN) has become a viable and beneficial interdisciplinary outreach program for K-12 educators in Nebraska. Over the last three years, the NASA grant has provided personnel and equipment to maintain, expand and develop NESEN into a program that is recognized by its membership as a valuable source of information and expertise in earth systems science. Because NASA funding provided a framework upon which to build, other external sources of funding have become available to support NESEN programs.

  20. Canadian Geoscience Education Network (CGEN): Fostering Excellence in Earth Science Education and Outreach

    Science.gov (United States)

    Haidl, F. M.; Vodden, C.; Bates, J. L.; Morgan, A. V.

    2009-05-01

    CGEN, the outreach arm of the Canadian Federation of Earth Sciences, is a network of more than 270 individuals from all over Canada who work to promote geoscience education and public awareness of science. CGEN's priorities are threefold: to improve the quality of Earth science education delivered in our primary and secondary schools; to raise public awareness about the Earth sciences and their impact on everyday life; and to encourage student interest in the Earth sciences as a career option. These priorities are supported by CGEN's six core programs: 1) The national EdGEO program (www.edgeo.org), initiated in the 1970s, supports Earth science workshops for teachers. These workshops, organized by teams of local educators and geoscientists, provide teachers with "enhanced knowledge, classroom resources and increased confidence" to more effectively teach Earth science. In 2008, a record 521 teachers attended 14 EdGEO workshops. 2) EarthNet (www.earthnet-geonet.ca) is a virtual resource centre that provides support for teachers and for geoscientists involved in education and outreach. In 2008, EarthNet received a $11,500 grant from Encana Corporation to develop energy-related content. 3) The new Careers in Earth Science website (www.earthsciencescanada.com/careers), launched in October 2008, enhances CGEN's capacity to encourage students to pursue a career in the Earth sciences. This project exemplifies the value of collaboration with other organizations. Seven groups provided financial support for the project and many other organizations and individuals contributed in-kind support. 4) Geoscape Canada and Waterscape Canada, programs led by the Geological Survey of Canada, communicate practical Earth science information to teachers, students, and other members of communities across Canada through a series of electronic and hard-copy posters and other resources. Many of the resources created from 1998 to 2007 are available online (www.geoscape.nrcan.gc.ca). A northern

  1. Games in Science Education

    DEFF Research Database (Denmark)

    Magnussen, Rikke

    2014-01-01

    , 2007). Some of these newer formats are developed in partnerships between research and education institutions and game developers and are based on learning theory as well as game design methods. Games well suited for creating narrative framework or simulations where students gain first-hand experience......This paper presents a categorisation of science game formats in relation to the educational possibilities or limitations they offer in science education. This includes discussion of new types of science game formats and gamification of science. Teaching with the use of games and simulations...... in science education dates back to the 1970s and early 80s were the potentials of games and simulations was discussed extensively as the new teaching tool ( Ellington et al. , 1981). In the early 90s the first ITC -based games for exploration of science and technical subjects was developed (Egenfeldt...

  2. Globalization and Science Education

    Science.gov (United States)

    Bencze, J. Lawrence; Carter, Lyn; Chiu, Mei-Hung; Duit, Reinders; Martin, Sonya; Siry, Christina; Krajcik, Joseph; Shin, Namsoo; Choi, Kyunghee; Lee, Hyunju; Kim, Sung-Won

    2013-06-01

    Processes of globalization have played a major role in economic and cultural change worldwide. More recently, there is a growing literature on rethinking science education research and development from the perspective of globalization. This paper provides a critical overview of the state and future development of science education research from the perspective of globalization. Two facets are given major attention. First, the further development of science education as an international research domain is critically analyzed. It seems that there is a predominance of researchers stemming from countries in which English is the native language or at least a major working language. Second, the significance of rethinking the currently dominant variants of science instruction from the perspectives of economic and cultural globalization is given major attention. On the one hand, it is argued that processes concerning globalization of science education as a research domain need to take into account the richness of the different cultures of science education around the world. At the same time, it is essential to develop ways of science instruction that make students aware of the various advantages, challenges and problems of international economic and cultural globalization.

  3. Study of Health-promotion behaviors among university of medical science students

    Directory of Open Access Journals (Sweden)

    Zahra Motlagh

    2011-09-01

    Full Text Available Background: Health promoting activities and a healthy lifestyle are major strategies to preserve health. Regarding the importance of health in young people, health promotion in society and also lack of related studies in Iran, this study was designed to determine the performance of the health-enhancing behaviors in medical university students and its effective factors.Materials and Method: This study was a cross-sectional-descriptive survey assessing health-promoting lifestyle among students of Yazd university of medical sciences. A total number of 440 students were recruited in this study using a stratified sampling method. Health-promoting lifestyle was measured using walker’s health–promoting life style profile II (HPLP-II instrument. Data were analyzed by χ2, student t-tests and one way ANOVA, using SPSS -11.5.Result: Age range of participants was from 17 to 33 years with a mean age of 21.1 years and was composed of 67.4% females and 32.6% males. Totally, the overall health-promoting lifestyle profile had a mean of 130.31 ±19. The highest mean in the subscales was 26.03±5.04 for spiritual growth and the lowest was 16.24±4.28 for physical activity. Statistical significant association was seen between the socio-demographic variables particularly employment situation (p=0.002, study field (p=0.001, mother’s education level (p=0.007 and mother’s job (p=0.01 with mean of overall health-promoting lifestyle profile.Conclusion: Regarding the situation of health-promoting behaviors due to low physical activity among students especially in girls providing health education programs toward increasing physical activity is recommended.

  4. Young Generation in Nuclear Initiative to Promote Nuclear Science and Technology

    International Nuclear Information System (INIS)

    Kilavi Ndege, P.K.

    2015-01-01

    The Kenyan Young Generation in Nuclear (KYGN) is a recently founded not to profit organization. Its mandate is to educate, inform, promote and transfer knowledge on the peaceful, safe and secure users of nuclear science and technology in Kenya. It brings on board all scientist and students with special interest in nuclear science and related fields. KYGN is an affiliate of International Youth Nuclear Congress (YNC) whose membership with IYNC whose membership is drawn from member state of United Nations. Through our membership with IYNC, KYGN members have been able to participate in different forums. In this paper, we discuss KYGN’s prime roles opportunities as well as the challenges of the organization

  5. Science youth action research: Promoting critical science literacy through relevance and agency

    Science.gov (United States)

    Coleman, Elizabeth R.

    This three-article dissertation presents complementary perspectives on Science Youth Action Research (Sci-YAR), a K-12 curriculum designed to emphasize relevance and agency to promote youth's science learning. In Sci-YAR, youth conduct action research projects to better understand science-related issues in their lives, schools, or communities, while they simultaneously document, analyze, and reflect upon their own practices as researchers. The first article defines Sci-YAR and argues for its potential to enhance youth's participation as citizens in a democratic society. The second article details findings from a case study of youth engaged in Sci-YAR, describing how the curriculum enabled and constrained youth's identity work in service of critical science agency. The third article provides guidance to science teachers in implementing student-driven curriculum and instruction by emphasizing Sci-YAR's key features as a way to promote student agency and relevance in school science.

  6. Is Religious Education Compatible with Science Education?

    Science.gov (United States)

    Mahner, Martin; Bunge, Mario

    1996-01-01

    Addresses the problem of the compatibility of science and religion, and its bearing on science and religious education, challenges the popular view that science and religion are compatible or complementary. Discusses differences at the doctrinal, metaphysical, methodological, and attitudinal levels. Argues that religious education should be kept…

  7. Scientific literacy and the ontology of science education: A case study of learning in the outdoors

    Science.gov (United States)

    Gleason, Tristan

    This dissertation seeks to articulate a framework for critiquing and reconstructing science education by fleshing out the relationships between science education, its ontological commitments to nature, and educational practices that promote justice and democracy. Drawing on theoretical and methodological resources from American Pragmatism and science studies, I offer a case study that evokes the practices of a residential outdoor science program in the Pacific Northwest. I suggest that these practices provide an opportunity to imagine how science education emerges differently when it abandons its commitments to a singular and authoritative Nature, and explore how this program provides empirical resources for building a theory of science education that is multinatural. Grasping the plurality of nature diminishes the tension between experiences and the world, recognizing the importance of the sciences to democratic action without positioning them as a singular source of authority. Multinaturalism then becomes an orienting concept for imagining and reconstructing more democratic and just practices of science education, practices that move away from the transmission of a cannon of white, Eurocentric knowledge, and towards the navigation of problems in dynamic worlds.

  8. Science Teaching in Science Education

    Science.gov (United States)

    Callahan, Brendan E.; Dopico, Eduardo

    2016-01-01

    Reading the interesting article "Discerning selective traditions in science education" by Per Sund, which is published in this issue of "CSSE," allows us to open the discussion on procedures for teaching science today. Clearly there is overlap between the teaching of science and other areas of knowledge. However, we must…

  9. Science in the General Educational Development (GED) curriculum: Analyzing the science portion of GED programs and exploring adult students' attitudes toward science

    Science.gov (United States)

    Hariharan, Joya Reena

    The General Educational Development (GED) tests enable people to earn a high school equivalency diploma and help them to qualify for more jobs and opportunities. Apart from this main goal, GED courses aim at enabling adults to improve the condition of their lives and to cope with a changing society. In today's world, science and technology play an exceedingly important role in helping people better their lives and in promoting the national goals of informed citizenship. Despite the current efforts in the field of secondary science education directed towards scientific literacy and the concept of "Science for all Americans", the literature does not reflect any corresponding efforts in the field of adult education. Science education research appears to have neglected a population that could possibly benefit from it. The purpose of this study is to explore: the science component of GED programs, significant features of the science portion of GED curricula and GED science materials, and adult learners' attitudes toward various aspects of science. Data collection methods included interviews with GED students and instructors, content analysis of relevant materials, and classroom observations. Data indicate that the students in general feel that the science they learn should be relevant to their lives and have direct applications in everyday life. Student understanding of science and interest in it appears to be contingent to their perceiving it as relevant to their lives and to society. Findings indicate that the instructional approaches used in GED programs influence students' perceptions about the relevance of science. Students in sites that use strategies such as group discussions and field trips appear to be more aware of science in the world around them and more enthusiastic about increasing this awareness. However, the dominant strategy in most GED programs is individual reading. The educational strategies used in GED programs generally focus on developing reading

  10. Educating science editors: is there a comprehensive strategy?

    Science.gov (United States)

    Gasparyan, Armen Yuri; Yessirkepov, Marlen; Gorin, Sergey V; Kitas, George D

    2014-12-01

    The article considers available options to educate science editors in the fast-transforming digital environment. There is no single course or resource that can cover their constantly changing and diversifying educational needs. The involvement in research, writing, and reviewing is important for gaining editing skills, but that is not all. Membership in editorial associations and access to updated scholarly information in the field are mandatory for maintaining editorial credentials. Learned associations offer access to a few widely-recognized periodicals. There are also formal training courses covering issues in science writing and ethical editing, but no high-level evidence data exist to promote any of these. Networking with like-minded specialists within the global and regional editorial associations seems a useful strategy to upgrade editorial skills and resolve problems with the quality control and digitization of scholarly periodicals.

  11. Safety Education and Science.

    Science.gov (United States)

    Ralph, Richard

    1980-01-01

    Safety education in the science classroom is discussed, including the beginning of safe management, attitudes toward safety education, laboratory assistants, chemical and health regulation, safety aids, and a case study of a high school science laboratory. Suggestions for safety codes for science teachers, student behavior, and laboratory…

  12. BioSIGHT: Interactive Visualization Modules for Science Education

    Science.gov (United States)

    Wong, Wee Ling

    1998-01-01

    Redefining science education to harness emerging integrated media technologies with innovative pedagogical goals represents a unique challenge. The Integrated Media Systems Center (IMSC) is the only engineering research center in the area of multimedia and creative technologies sponsored by the National Science Foundation. The research program at IMSC is focused on developing advanced technologies that address human-computer interfaces, database management, and high- speed network capabilities. The BioSIGHT project at IMSC is a demonstration technology project in the area of education that seeks to address how such emerging multimedia technologies can make an impact on science education. The scope of this project will help solidify NASA's commitment for the development of innovative educational resources that promotes science literacy for our students and the general population as well. These issues must be addressed as NASA marches towards the goal of enabling human space exploration that requires an understanding of life sciences in space. The IMSC BioSIGHT lab was established with the purpose of developing a novel methodology that will map a high school biology curriculum into a series of interactive visualization modules that can be easily incorporated into a space biology curriculum. Fundamental concepts in general biology must be mastered in order to allow a better understanding and application for space biology. Interactive visualization is a powerful component that can capture the students' imagination, facilitate their assimilation of complex ideas, and help them develop integrated views of biology. These modules will augment the role of the teacher and will establish the value of student-centered interactivity, both in an individual setting as well as in a collaborative learning environment. Students will be able to interact with the content material, explore new challenges, and perform virtual laboratory simulations. The BioSIGHT effort is truly cross

  13. Is Christian Education Compatible With Science Education?

    Science.gov (United States)

    Martin, Michael

    Science education and Christian education are not compatible if by Christian education one means teaching someone to be a Christian. One goal of science education is to give students factual knowledge. Even when there is no actual conflict of this knowledge with the dogmas of Christianity, there exists the potential for conflict. Another goal of science education is to teach students to have the propensity to be sensitive to evidence: to hold beliefs tentatively in light of evidence and to reject these beliefs in the light of new evidence if rejection is warranted by this evidence. This propensity conflicts with one way in which beliefs are often taught in Christian education: namely as fundamental dogmas, rather than as subject to revision in the light of the evidence.

  14. Career-related instruction promoting students’ career awareness and interest towards science learning

    OpenAIRE

    Salonen, Anssi; Kärkkäinen, Sirpa; Keinonen, Tuula

    2018-01-01

    The aim of this study was to investigate how the career-related instruction implemented in secondary school chemistry education concerning water issues influence students’ career awareness and interest towards science learning. This case study is part of a larger design-based research of the EU-MultiCO project that focuses on promoting students’ scientific career awareness and attractiveness by introducing them career-based scenarios at the beginning of the instruction unit. The participants ...

  15. Compulsory autonomy-promoting education

    NARCIS (Netherlands)

    A. Schinkel (Anders)

    2010-01-01

    textabstractToday, many liberal philosophers of education worry that certain kinds of education may frustrate the development of personal autonomy, with negative consequences for the individuals concerned, the liberal state, or both. Autonomy liberals hold not only that we should promote the

  16. Science Engagement Through Hands-On Activities that Promote Scientific Thinking and Generate Excitement and Awareness of NASA Assets, Missions, and Science

    Science.gov (United States)

    Graff, P. V.; Foxworth, S.; Miller, R.; Runco, S.; Luckey, M. K.; Maudlin, E.

    2018-01-01

    The public with hands-on activities that infuse content related to NASA assets, missions, and science and reflect authentic scientific practices promotes understanding and generates excitement about NASA science, research, and exploration. These types of activities expose our next generation of explorers to science they may be inspired to pursue as a future STEM career and expose people of all ages to unique, exciting, and authentic aspects of NASA exploration. The activities discussed here (Blue Marble Matches, Lunar Geologist Practice, Let's Discover New Frontiers, Target Asteroid, and Meteorite Bingo) have been developed by Astromaterials Research and Exploration Science (ARES) Science Engagement Specialists in conjunction with ARES Scientists at the NASA Johnson Space Center. Activities are designed to be usable across a variety of educational environments (formal and informal) and reflect authentic scientific content and practices.

  17. Making Philosophy of Science Education Practical for Science Teachers

    Science.gov (United States)

    Janssen, F. J. J. M.; van Berkel, B.

    2015-04-01

    Philosophy of science education can play a vital role in the preparation and professional development of science teachers. In order to fulfill this role a philosophy of science education should be made practical for teachers. First, multiple and inherently incomplete philosophies on the teacher and teaching on what, how and why should be integrated. In this paper we describe our philosophy of science education (ASSET approach) which is composed of bounded rationalism as a guideline for understanding teachers' practical reasoning, liberal education underlying the why of teaching, scientific perspectivism as guideline for the what and educational social constructivism as guiding choices about the how of science education. Integration of multiple philosophies into a coherent philosophy of science education is necessary but not sufficient to make it practical for teachers. Philosophies are still formulated at a too abstract level to guide teachers' practical reasoning. For this purpose, a heuristic model must be developed on an intermediate level of abstraction that will provide teachers with a bridge between these abstract ideas and their specific teaching situation. We have developed and validated such a heuristic model, the CLASS model in order to complement our ASSET approach. We illustrate how science teachers use the ASSET approach and the CLASS model to make choices about the what, the how and the why of science teaching.

  18. Romanticism and Romantic Science: Their Contribution to Science Education

    Science.gov (United States)

    Hadzigeorgiou, Yannis; Schulz, Roland

    2014-01-01

    The unique contributions of romanticism and romantic science have been generally ignored or undervalued in history and philosophy of science studies and science education. Although more recent research in history of science has come to delineate the value of both topics for the development of modern science, their merit for the educational field…

  19. Science education and everyday action

    Science.gov (United States)

    McCann, Wendy Renee Sherman

    2001-07-01

    This dissertation addresses three related tasks and issues in the larger field of science education. The first is to review of the several uses of "everydayness" at play in the science education literature, and in the education and social science literatures more generally. Four broad iterations of everydayness were found in science education, and these were traced and analyzed to develop their similarities, and contradictions. It was concluded that despite tendencies in science education research to suppose a fundamental demarcation either between professional science and everyday life, or between schools and everyday life, all social affairs, including professional science and activity in schools, are continuous with everyday life, and consist fundamentally in everyday, ordinary mundane actions which are ordered and organized by the participants to those social activities and occasions. The second task for this dissertation was to conduct a naturalistic, descriptive study of undergraduate-level physics laboratory activities from the analytic perspective of ethnomethodology. The study findings are presented as closely-detailed analysis of the students' methods of following their instructions and 'fitting' their observed results to a known scientific concept or principle during the enactment of their classroom laboratory activities. Based on the descriptions of students' practical work in following instructions and 'fitting'. The characterization of school science labs as an "experiment-demonstration hybrid" is developed. The third task of this dissertation was to synthesize the literature review and field study findings in order to clarify what science educators could productively mean by "everydayness", and to suggest what understandings of science education the study of everyday action recommends. It is argued that the significance of the 'experiment-demo hybrid' characterization must be seen in terms of an alternate program for science education research, which

  20. 7 CFR 1160.301 - Promotion, consumer education and research.

    Science.gov (United States)

    2010-01-01

    ... (2) The evaluation of consumer education, promotion and research activities implemented under the... 7 Agriculture 9 2010-01-01 2009-01-01 true Promotion, consumer education and research. 1160.301... PROGRAM Fluid Milk Promotion Order Promotion, Consumer Education and Research § 1160.301 Promotion...

  1. Preparing informal science educators perspectives from science communication and education

    CERN Document Server

    2017-01-01

    This book provides a diverse look at various aspects of preparing informal science educators. Much has been published about the importance of preparing formal classroom educators, but little has been written about the importance, need, and best practices for training professionals who teach in aquariums, camps, parks, museums, etc. The reader will find that as a collective the chapters of the book are well-related and paint a clear picture that there are varying ways to approach informal educator preparation, but all are important. The volume is divided into five topics: Defining Informal Science Education, Professional Development, Designing Programs, Zone of Reflexivity: The Space Between Formal and Informal Educators, and Public Communication. The authors have written chapters for practitioners, researchers and those who are interested in assessment and evaluation, formal and informal educator preparation, gender equity, place-based education, professional development, program design, reflective practice, ...

  2. Using and Developing Measurement Instruments in Science Education: A Rasch Modeling Approach. Science & Engineering Education Sources

    Science.gov (United States)

    Liu, Xiufeng

    2010-01-01

    This book meets a demand in the science education community for a comprehensive and introductory measurement book in science education. It describes measurement instruments reported in refereed science education research journals, and introduces the Rasch modeling approach to developing measurement instruments in common science assessment domains,…

  3. Earth at Rest. Aesthetic Experience and Students' Grounding in Science Education

    Science.gov (United States)

    Østergaard, Edvin

    2017-07-01

    Focus of this article is the current situation characterized by students' de-rootedness and possible measures to improve the situation within the frame of education for sustainable development. My main line of argument is that science teachers can practice teaching in such a way that students are brought in deeper contact to the environment. I discuss efforts to promote aesthetic experience in science class and in science teacher education. Within a wide range of definitions, my main understanding of aesthetic experience is that of pre-conceptual experience, relational to the environment and incorporated in students' embodied knowledge. I ground the idea of Earth at rest in Husserl's phenomenological philosophy and Heidegger's notion of science' deprivation of the world. A critique of the ontological reversal leads to an ontological re-reversal that implies giving lifeworld experience back its value and rooting scientific concepts in students' everyday lives. Six aspects of facilitating grounding in sustainability-oriented science teaching and teacher education are highlighted and discussed: students' everyday knowledge and experience, aesthetic experience and grounding, fostering aesthetic sensibility, cross-curricular integration with art, ontological and epistemological aspects, and belongingness and (re-)connection to Earth. I conclude that both science students and student-teachers need to practice their sense of caring and belonging, as well as refining their sensibility towards the world. With an intension of educating for a sustainable development, there is an urgent need for a critical discussion in science education when it comes to engaging learners for a sustainable future.

  4. How commercial and ``violent'' video games can promote culturally sensitive science learning: some questions and challenges

    Science.gov (United States)

    Kwah, Helen

    2012-12-01

    In their paper, Muñoz and El-Hani propose to bring video games into science classrooms to promote culturally sensitive ethics and citizenship education. Instead of bringing "educational" games, Muñoz and El-Hani take a more creative route and include games such as Fallout 3® precisely because they are popular and they reproduce ideological and violent representations of gender, race, class, nationality, science and technology. However, there are many questions that arise in bringing these commercial video games into science classrooms, including the questions of how students' capacities for critical reflection can be facilitated, whether traditional science teachers can take on the role of using such games in their classrooms, and which video games would be most appropriate to use. In this response, I raise these questions and consider some of the challenges in order to further the possibility of implementing Muñoz and El-Hani's creative proposal for generating culturally sensitive science classrooms.

  5. Science Education and the Emergence of the Specialized Scientist in Nineteenth Century Greece

    Science.gov (United States)

    Tampakis, Konstantinos

    2013-04-01

    In this paper, I describe the strong and reciprocal relations between the emergence of the specialized expert in the natural sciences and the establishment of science education, in early Modern Greece. Accordingly, I show how science and public education interacted within the Greek state from its inception in the early 1830, to the first decade of the twentieth century, when the University of Athens established an autonomous Mathematics and Physics School. Several factors are taken into account, such as the negotiations of Western educational theories and practices within a local context, the discourses of the science savants of the University of Athens, the role of the influential Greek pedagogues of the era, the state as an agent which imposed restrictions or facilitated certain developments and finally the intellectual and cultural aspirations of the nation itself. Science education is shown to be of fundamental importance for Greek scientists. The inclusion of science within the school system preceded and promoted the appearance of a scientific community and the institution of science courses was instrumental for the emergence of the first trained Greek scientists. Thus, the conventional narrative that would have science appearing in the classrooms as an aftermath of the emergence of a scientific community is problematized.

  6. Promoting Science-Policy Education on Global Environmental Issues: The Mercury Game

    Science.gov (United States)

    Selin, N. E.; Stokes, L. C.; Susskind, L. E.

    2011-12-01

    We present initial results from a project focusing on teaching science and engineering students about global environmental policy, funded by a NSF CAREER grant. Despite decades of growing global concern about issues such as ozone depletion, climate change, and toxic chemicals, linking science to policy is a continuing challenge, and few science students receive formal training for effective participation in global negotiations. The focus of the educational activity presented here is the development of a freely-available, interactive teaching tool in the form of a role-play simulation, called "The Mercury Game" (http://mit.edu/mercurygame). The simulation requires players to consider scientific information on an emerging global issue, mercury pollution, and collectively decide whether global policy action is appropriate and what the scope of such action might entail. Playing the game helps participants to explore the consequences of representing scientific uncertainty in various ways in a policy context. The game focuses on the credibility of various sources of technical information, strategies for representing risk and uncertainty, and the balance between scientific and political considerations. It also requires the players to grapple with political considerations, particularly the dynamic between the global "North" (the developed world) and the global "South" (the developing world) at the heart of most political conflicts. Simulation outcomes from running the simulation at two scientific conferences and as part of a graduate-level course on global environmental science and policy will be presented.

  7. Bourdieu, Department Chairs and the Reform of Science Education

    Science.gov (United States)

    Melville, Wayne; Hardy, Ian; Bartley, Anthony

    2011-11-01

    Using the insights of the French sociologist, Pierre Bourdieu, this article considers the role of the science department chair in the reform of school science education. Using Bourdieu's 'thinking tools' of 'field', 'habitus' and 'capital', we case study the work of two teachers who both actively pursue the teaching and learning of science as inquiry. One teacher, Dan, has been a department chair since 2000, and has actively encouraged his department to embrace science as inquiry. The other teacher, Leslie, worked for one year in Dan's department before being transferred to another school where science teaching continues to be more traditional. Our work suggests that there are three crucial considerations for chairs seeking to lead the reform of science teaching within their department. The first of these is the development of a reform-minded habitus, as this appears to be foundational to the capital that can be expended in the leadership of reform. The second is an understanding of how to wield power and position in the promotion of reform. The third is the capacity to operate simultaneously and strategically within, and across, two fields; the departmental field and the larger science education field. This involves downplaying administrative logics, and foregrounding more inquiry-focused logics as a vehicle to challenge traditional science-teaching dispositions-the latter being typically dominated by concerns about curriculum 'coverage'.

  8. PROMOTING SCIENTIFIC AND TECHNOLOGICAL LITERACY AMONG POSTGRADUATE STUDENTS AT THE FACULTY OF EDUCATION UTM

    Directory of Open Access Journals (Sweden)

    Seth Sulaiman

    2014-11-01

    Full Text Available One important issue in the Science Education debate over the last century was how to prepare a more relevant science education of the 21st Century that emphasizes on promoting scientific literacy through a more meaningful science education program. In response to this call, a general science education elective course code named MPS1163 Epistemological, Social and Ethical Issues in Science and Technology was designed and implemented starting in Semester 2 Session 2009/2010. By the end of Semester 2 Session 2012/2013 the course has been running for 7 semesters and had invited 128 postgraduate students from 7 different programs, including a PhD program. A questionnaire was distributed to 26 course participants at the end of semester 2 Session 2012/2013. The objective of the questionnaire was to seek their personal assessment on their knowledge and understanding on the eleven course contents taken during the whole semester. The results indicated that there was a mean increment of between 40- 50% on their knowledge and understanding on the topics covered compared to their knowledge and understanding before taking the course. The second part of the questionnaire consisted of six items, using five point Likert Scale, seeking their suggestions for improving a more relevant science education through the elective course. The response was commendable. Implications of the study related to course contents and students opinions on the course contents and suggestions for the improvement of the course are discussed in this paper.

  9. Center of Microbial Oceanography Research and Education (C-MORE) Initiatives Toward Promoting Diversity in the Ocean Sciences

    Science.gov (United States)

    Bruno, B. C.

    2007-05-01

    The ocean sciences suffer from a lack of diversity, particularly among indigenous peoples, despite the fact that indigenous peoples often have deep, cultural knowledge about the marine environment. Nowhere is this inequity more glaring than in Hawaii. Traditional knowledge in marine science enabled Native Hawaiians and Pacific Islanders (NHPI) to become world leaders in transpacific canoe voyaging, aquaculture, and fisheries. Yet today, NHPI are severely underrepresented in the ocean sciences (and in STEM fields in general) at all levels of education and employment. When compared to other ethnic and racial groups in Hawaii, NHPI students as a group have among the poorest educational performance, indicated in part by underrepresentation in college enrolment and pre-college gifted and talented programs, as well as overrepresentation in eligibility for special education and free and reduced lunch programs. The Center of Microbial Oceanography Research and Education (C-MORE), a NSF-funded, multi-institutional Science and Technology Center based at the University of Hawai (UH), is determined to address this inequity. C- MORE is committed to increasing diversity in the ocean sciences, particularly among NHPI, at all levels of education and research. Our approach is to work with existing programs with a track record of increasing diversity among NHPI. We are currently developing culturally relevant materials including educational games for K-12 students, mentorships for high school and community college students, and laboratory and shipboard experiences for teachers and undergraduates in partnership with minority-serving organizations. Some of our main partners are EPSCoR (Experimental Program to Stimulate Competitive Research), Ka `Imi `Ike (an NSF- funded program to recruit and retain NHPI undergraduates in geosciences), Upward Bound (an enrichment program for economically disadvantaged high school students which includes intensive summer courses), the UH Center on

  10. 7 CFR 1250.341 - Research, education, and promotion.

    Science.gov (United States)

    2010-01-01

    ... program or project; and (e) No advertising or promotion programs shall use false or unwarranted claims or... 7 Agriculture 10 2010-01-01 2010-01-01 false Research, education, and promotion. 1250.341 Section... RESEARCH AND PROMOTION Egg Research and Promotion Order Research, Education, and Promotion § 1250.341...

  11. Science-Technology-Society (STS): A New Paradigm in Science Education

    Science.gov (United States)

    Mansour, Nasser

    2009-01-01

    Changes in the past two decades of goals for science education in schools have induced new orientations in science education worldwide. One of the emerging complementary approaches was the science-technology-society (STS) movement. STS has been called the current megatrend in science education. Others have called it a paradigm shift for the field…

  12. Crowdfunding for Elementary Science Educators

    Science.gov (United States)

    Reese, Jessica; Miller, Kurtz

    2017-01-01

    The inadequate funding of science education in many school districts, particularly in underserved areas, is preventing elementary science educators from realizing the full potential of the "Next Generation Science Standards" ("NGSS"). Yet many elementary science teachers may be unaware that millions of dollars per year are…

  13. Clinical Correlations as a Tool in Basic Science Medical Education

    Directory of Open Access Journals (Sweden)

    Brenda J. Klement

    2016-01-01

    Full Text Available Clinical correlations are tools to assist students in associating basic science concepts with a medical application or disease. There are many forms of clinical correlations and many ways to use them in the classroom. Five types of clinical correlations that may be embedded within basic science courses have been identified and described. (1 Correlated examples consist of superficial clinical information or stories accompanying basic science concepts to make the information more interesting and relevant. (2 Interactive learning and demonstrations provide hands-on experiences or the demonstration of a clinical topic. (3 Specialized workshops have an application-based focus, are more specialized than typical laboratory sessions, and range in complexity from basic to advanced. (4 Small-group activities require groups of students, guided by faculty, to solve simple problems that relate basic science information to clinical topics. (5 Course-centered problem solving is a more advanced correlation activity than the others and focuses on recognition and treatment of clinical problems to promote clinical reasoning skills. Diverse teaching activities are used in basic science medical education, and those that include clinical relevance promote interest, communication, and collaboration, enhance knowledge retention, and help develop clinical reasoning skills.

  14. Exploring social networks of municipal science education stakeholders in Danish Science Municipalities

    DEFF Research Database (Denmark)

    von der Fehr, Ane

    development in the science and technology industry. Therefore, much effort has been invested to improve science education. The importance of school external stakeholders in development of education has been an increasingly emphasised, also in the field of science education. This has led to a growing focus......Science education development is a field of many interests and a key interest is recruitment of students who wish to pursue an education in science. This is an urgent societal demand in Denmark as well as internationally, since highly skilled science graduates are needed for the continuous...... involved in science education development. These municipal science education networks (MSE networks) were identified as important for development of science education in the SM project. Therefore, it was a key interest to explore these networks in order to investigate how the central stakeholders affected...

  15. Perceived barriers to online education by radiologic science educators.

    Science.gov (United States)

    Kowalczyk, Nina K

    2014-01-01

    Radiologic science programs continue to adopt the use of blended online education in their curricula, with an increase in the use of online courses since 2009. However, perceived barriers to the use of online education formats persist in the radiologic science education community. An electronic survey was conducted to explore the current status of online education in the radiologic sciences and to identify barriers to providing online courses. A random sample of 373 educators from radiography, radiation therapy, and nuclear medicine technology educational programs accredited by the Joint Review Committee on Education in Radiologic Technology and Joint Review Committee on Educational Programs in Nuclear Medicine Technology was chosen to participate in this study. A qualitative analysis of self-identified barriers to online teaching was conducted. Three common themes emerged: information technology (IT) training and support barriers, student-related barriers, and institutional barriers. Online education is not prevalent in the radiologic sciences, in part because of the need for the clinical application of radiologic science course content, but online course activity has increased substantially in radiologic science education, and blended or hybrid course designs can effectively provide opportunities for student-centered learning. Further development is needed to increase faculty IT self-efficacy and to educate faculty regarding pedagogical methods appropriate for online course delivery. To create an excellent online learning environment, educators must move beyond technology issues and focus on providing quality educational experiences for students.

  16. Scientists Interacting With University Science Educators

    Science.gov (United States)

    Spector, B. S.

    2004-12-01

    Scientists with limited time to devote to educating the public about their work will get the greatest multiplier effect for their investment of time by successfully interacting with university science educators. These university professors are the smallest and least publicized group of professionals in the chain of people working to create science literate citizens. They connect to all aspects of formal and informal education, influencing everything from what and how youngsters and adults learn science to legislative rulings. They commonly teach methods of teaching science to undergraduates aspiring to teach in K-12 settings and experienced teachers. They serve as agents for change to improve science education inside schools and at the state level K-16, including what science content courses are acceptable for teacher licensure. University science educators are most often housed in a College of Education or Department of Education. Significant differences in culture exist in the world in which marine scientists function and that in which university science educators function, even when they are in the same university. Subsequently, communication and building relationships between the groups is often difficult. Barriers stem from not understanding each other's roles and responsibilities; and different reward systems, assumptions about teaching and learning, use of language, approaches to research, etc. This presentation will provide suggestions to mitigate the barriers and enable scientists to leverage the multiplier effect saving much time and energy while ensuring the authenticity of their message is maintained. Likelihood that a scientist's message will retain its authenticity stems from criteria for a university science education position. These professors have undergraduate degrees in a natural science (e.g., biology, chemistry, physics, geology), and usually a master's degree in one of the sciences, a combination of natural sciences, or a master's including

  17. Assessment in Science Education

    Science.gov (United States)

    Rustaman, N. Y.

    2017-09-01

    An analyses study focusing on scientific reasoning literacy was conducted to strengthen the stressing on assessment in science by combining the important of the nature of science and assessment as references, higher order thinking and scientific skills in assessing science learning as well. Having background in developing science process skills test items, inquiry in its many form, scientific and STEM literacy, it is believed that inquiry based learning should first be implemented among science educators and science learners before STEM education can successfully be developed among science teachers, prospective teachers, and students at all levels. After studying thoroughly a number of science researchers through their works, a model of scientific reasoning was proposed, and also simple rubrics and some examples of the test items were introduced in this article. As it is only the beginning, further studies will still be needed in the future with the involvement of prospective science teachers who have interests in assessment, either on authentic assessment or in test items development. In balance usage of alternative assessment rubrics, as well as valid and reliable test items (standard) will be needed in accelerating STEM education in Indonesia.

  18. Ethiopian Journal of Education and Sciences

    African Journals Online (AJOL)

    The Ethiopian Journal of Education and Sciences focuses on publishing articles relating to education and sciences. It publishes ... The objective is to create forum for researchers in education and sciences. ... AJOL African Journals Online.

  19. Augmented Reality for Science Education

    DEFF Research Database (Denmark)

    Brandt, Harald; Nielsen, Birgitte Lund; Georgsen, Marianne

    Augmented reality (AR) holds great promise as a learning tool. So far, however, most research has looked at the technology itself – and AR has been used primarily for commercial purposes. As a learning tool, AR supports an inquiry-based approach to science education with a high level of student...... involvement. The AR-sci-project (Augmented Reality for SCIence education) addresses the issue of applying augmented reality in developing innovative science education and enhancing the quality of science teaching and learning....

  20. Compulsory Autonomy-Promoting Education

    Science.gov (United States)

    Schinkel, Anders

    2010-01-01

    Today, many liberal philosophers of education worry that certain kinds of education may frustrate the development of personal autonomy, with negative consequences for the individuals concerned, the liberal state, or both. Autonomy liberals hold not only that we should promote the development of autonomy in children, but also that this aim should…

  1. Communicating Ocean Sciences to Informal Audiences (COSIA): Universities, Oceanographic Institutions, Science Centers and Aquariums Working Together to Improve Ocean Education and Public Outreach

    Science.gov (United States)

    Glenn, S.; McDonnell, J.; Halversen, C.; Zimmerman, T.; Ingram, L.

    2007-12-01

    Ocean observatories have already demonstrated their ability to maintain long-term time series, capture episodic events, provide context for improved shipboard sampling, and improve accessibility to a broader range of participants. Communicating Ocean Sciences, an already existing college course from COSEE-California has demonstrated its ability to teach future scientists essential communication skills. The NSF-funded Communicating Ocean Sciences to Informal Audiences (COSIA) project has leveraged these experiences and others to demonstrate a long-term model for promoting effective science communication skills and techniques applicable to diverse audiences. The COSIA effort is one of the pathfinders for ensuring that the new scientific results from the increasing U.S. investments in ocean observatories is effectively communicated to the nation, and will serve as a model for other fields. Our presentation will describe a long-term model for promoting effective science communication skills and techniques applicable to diverse audiences. COSIA established partnerships between informal science education institutions and universities nationwide to facilitate quality outreach by scientists and the delivery of rigorous, cutting edge science by informal educators while teaching future scientists (college students) essential communication skills. The COSIA model includes scientist-educator partnerships that develop and deliver a college course that teaches communication skills through the understanding of learning theory specifically related to informal learning environments and the practice of these skills at aquariums and science centers. The goals of COSIA are to: provide a model for establishing substantive, long-term partnerships between scientists and informal science education institutions to meet their respective outreach needs; provide future scientists with experiences delivering outreach and promoting the broader impact of research; and provide diverse role models

  2. Disciplinary analysis of nuclear engineering education for 21st century style science and technology

    International Nuclear Information System (INIS)

    Woo, Taeho

    2012-01-01

    The nuclear engineering education (NEE) is analyzed by the aspect of the advanced science and technology which is characterized by interdisciplinary R and D. The creative innovation is a goal of the education. This work is performed by the conceptual analysis and numerical analysis. Creativity and its innovation are represented as a critical role in the science and technology. So, the education should follow the characteristics of the creativity and its innovation philosophy. Using system dynamics (SD) method, the quantification of the education effect is performed. In addition, the dynamical simulation shows the expected situations of the education usefulness. The final result shows the highest value is 19.11 of Nuclear Industry Innovation. The value increases gradually. So, the education is well developed, as time goes on in this study. In this paper, the education of the nuclear science and technology is modelled for the interdisciplinary promotions in the nuclear industry. The conventional technology has focused on the unit subject and its related technologies. By the way, creativity and its innovation are shown as a critical role in the science and technology. Hence, the education should follow the characteristics of the creativity and its innovation philosophy. Following the characteristics of the 21 st style science and technology, it is necessary to construct the education program of the information technology (IT), nanotechnology (NT), and biotechnology (BT). (orig.)

  3. Inquiry Based Science Education og den sociokulturelt forankrede dialog i naturfagsundervisningen

    DEFF Research Database (Denmark)

    Østergaard, Lars Domino

    2012-01-01

    Through study, investigation and discussion of the concept Best Practice in science education (Ellebæk & Østergaard, 2009) it was shown, that the dialogue in the teaching sequences was an important factor for the children’s understanding, engagement and interest for the science subjects......). The method is central in the action research project NatSats, where focus is on chidren’s hypothesizing and the way teacher’s use dialogue in their teaching or guiding of children in kindergarten and primary school. Results from the project indicate that an open and interrogative dialogue based...... and phenomena. In this article we will discuss dialogue in the light of sociocultural learning theories, and relate it to Inquiry Based Science Education (IBSE), as the pedagogical and didactical method, which are promoted most strongly these years (e.g. in the inter-European Pollen and Fibonacci projects...

  4. Graduate Experience in Science Education: the development of a science education course for biomedical science graduate students.

    Science.gov (United States)

    Markowitz, Dina G; DuPré, Michael J

    2007-01-01

    The University of Rochester's Graduate Experience in Science Education (GESE) course familiarizes biomedical science graduate students interested in pursuing academic career tracks with a fundamental understanding of some of the theory, principles, and concepts of science education. This one-semester elective course provides graduate students with practical teaching and communication skills to help them better relate science content to, and increase their confidence in, their own teaching abilities. The 2-h weekly sessions include an introduction to cognitive hierarchies, learning styles, and multiple intelligences; modeling and coaching some practical aspects of science education pedagogy; lesson-planning skills; an introduction to instructional methods such as case studies and problem-based learning; and use of computer-based instructional technologies. It is hoped that the early development of knowledge and skills about teaching and learning will encourage graduate students to continue their growth as educators throughout their careers. This article summarizes the GESE course and presents evidence on the effectiveness of this course in providing graduate students with information about teaching and learning that they will use throughout their careers.

  5. Dialogic learning and physical education: School sport and physical education promoting health, school success and social cohesion

    Directory of Open Access Journals (Sweden)

    Marcos Castro Sandúa

    2015-09-01

    Full Text Available Purpose: the notion of dialogic learning is on the basis of educational practices (Successful Educational Actions and projects (Schools as Learning Communities that are currently improving coexistence and promoting school success in more and more schools around the world. Physical Education has to find its place within this context and to define how to contribute to these aims from its specificity, as it is a subject in which the body and the movement have leading roles for learning and it is increasingly emphasizing the promotion of healthy habits. Due to all that, this article pretends to offer orientations to professionals and schools for building a more dialogic Physical Education. Design/methodology: a review of scientific literature on Physical Education and dialogic learning has been done starting from the results of the Juega Dialoga y Resuelve [Play, Dialogue and Solve] project (Spanish RTD National Plan and from the results obtained in the search for the topics “dialogic learning” and ”successful educational actions” in the ISI Web of Science. Findings: the results of the literature review show that the principles of dialogic learning and their practical development can be transferred to Physical Education and school sport in order to contribute to school success and to improve students’ and their communities’ health. Practical implications: orientations for professionals and schools to organize the practice of Physical Education and school sport in accordance with the principles of dialogic learning derive from the analysis. Social implications: the orientations promote school success for students and social cohesion and health for them and their communities. Originality/value: the article presents innovative elements for the organization of Physical Education and school sport that can be useful for teachers and other professionals.

  6. Science and Society - Problems, issues and dilemmas in science education

    CERN Multimedia

    2001-01-01

    Next in CERN's series of Science and Society speakers is Jonathan Osborne, Senior Lecturer in Science Education at King's College London. On Thursday 26 April, Dr Osborne will speak in the CERN main auditorium about current issues in science education in the light of an ever more science-based society. Jonathan Osborne, Senior Lecturer in Science Education at King's College London. Does science deserve a place at the curriculum high table of each student or is it just a gateway to a set of limited career options in science and technology? This question leads us to an important change in our ideas of what science education has been so far and what it must be. Basic knowledge of science and technology has traditionally been considered as just a starting point for those who wanted to build up a career in scientific research. But nowadays, the processes of science, the analysis of risks and benefits, and a knowledge of the social practices of science are necessary for every citizen. This new way of looking at s...

  7. Fermilab Education Office: Science Adventures

    Science.gov (United States)

    Search The Education Office: Science Adventures Adventure Catalog Search for Adventures Calendar Class Facebook Group. Contact: Science Adventures Registrar, Education Office Fermilab, MS 777, P.O. Box 500 it again." Opportunities for Instructors The Education Office has openings for instructors who

  8. Science Education: The New Humanity?

    Science.gov (United States)

    Douglas, John H.

    1973-01-01

    Summarizes science education trends, problems, and controversies at the elementary, secondary, and higher education levels beginning with the Physical Science Study Committee course, and discusses the present status concerning the application of the Fourth Revolution to the education system. (CC)

  9. Science Education: Issues, Approaches and Challenges

    Directory of Open Access Journals (Sweden)

    Shairose Irfan Jessani

    2015-06-01

    Full Text Available In today’s global education system, science education is much more than fact-based knowledge. Science education becomes meaningless and incomprehensible for learners, if the learners are unable to relate it with their lives. It is thus recommended that Pakistan, like many other countries worldwide should adopt Science Technology Society (STS approach for delivery of science education. The purpose of the STS approach lies in developing scientifically literate citizens who can make conscious decisions about the socio-scientific issues that impact their lives. The challenges in adopting this approach for Pakistan lie in four areas that will completely need to be revamped according to STS approach. These areas include: the examination system; science textbooks; science teacher education programs; and available resources and school facilities.

  10. A program to enhance k-12 science education in ten rural New York school districts.

    Science.gov (United States)

    Goodell, E; Visco, R; Pollock, P

    1999-04-01

    The Rural Partnership for Science Education, designed by educators and scientists in 1991 with funding from the National Institutes of Health, works in two rural New York State counties with students and their teachers from kindergarten through grade 12 to improve pre-college science education. The Partnership is an alliance among ten rural New York school districts and several New York State institutions (e.g., a regional academic medical center; the New York Academy of Sciences; and others), and has activities that involve around 4,800 students and 240 teachers each year. The authors describe the program's activities (e.g., summer workshops for teachers; science exploration camps for elementary and middle-school students; enrichment activities for high school students). A certified science education specialist directs classroom demonstrations throughout the academic year to support teachers' efforts to integrate hands-on activities into the science curriculum. A variety of evaluations over the years provides strong evidence of the program's effectiveness in promoting students' and teachers' interest in science. The long-term goal of the Partnership is to inspire more rural students to work hard, learn science, and enter the medical professions.

  11. Remodeling Science Education

    Science.gov (United States)

    Hestenes, David

    2013-01-01

    Radical reform in science and mathematics education is needed to prepare citizens for challenges of the emerging knowledge-based global economy. We consider definite proposals to establish: (1) "Standards of science and math literacy" for all students. (2) "Integration of the science curriculum" with structure of matter,…

  12. GeoBrain for Facilitating Earth Science Education in Higher-Education Institutes--Experience and Lessons-learned

    Science.gov (United States)

    Deng, M.; di, L.

    2007-12-01

    facilitating the transition of both undergraduate and graduate students from learners to investigators. They feedbacks have also shown the system can improve teaching effectiveness, refine student's learning habit, and inspire students" interests in pursuing Earth sciences as their career. The interaction with the education users of GeoBrain provides much needed guidance and lessens-learned for future development and promotion of GeoBrain.

  13. Evaluating a Graduate Professional Development Program for Informal Science Educators

    Science.gov (United States)

    Lake, Jeremy Paul

    This study is an examination and evaluation of the outcomes of a series of courses that I helped build to create a graduate certificate. Specifically, I wanted to evaluate whether or not the online iteration of the Informal Science Institutions Environmental Education Graduate Certificate Program truly provided the long term professional development needed to enhance the skills of the formal and informal educators participating so that they could contribute meaningfully to the improvement of science literacy in their respective communities. My role as an internal evaluator provided an extraordinary opportunity to know the intent of the learning opportunities and why they were constructed in a particular fashion. Through the combination of my skills, personal experiences both within the certificate's predecessor and as an educator, I was uniquely qualified to explore the outcomes of this program and evaluate its effectiveness in providing a long-term professional development for participants. After conducting a literature review that emphasized a need for greater scientific literacy in communities across America, it was evident that the formal education enterprise needs the support of informal educators working on the ground in myriad different settings in ways that provide science as both content and process, learning science facts and doing real science. Through a bridging of informal science educators with formal teachers, it was thought each could learn the culture of the other, making each more fluent in accessing community resources to help make these educators more collaborative and able to bridge the classroom with the outside world. This bridge promotes ongoing, lifelong learning, which in turn can help the national goal of greater scientific literacy. This study provided insight into the thinking involved in the learners' growth as they converted theory presented in course materials into practice. Through an iterative process of reviewing the course

  14. In Support of Access and Inclusion: Joint Professional Development for Science and Special Educators

    Directory of Open Access Journals (Sweden)

    Rita Brusca-Vega

    2014-11-01

    Full Text Available This article addresses the need for collaborative professional development of science and special educators to enhance access and inclusion for students with disabilities and improve science learning for all students. The purpose of the study was to examine changes in the teaching practices of science and special educators, grades 4 to 8, as they jointly completed an intense year-long professional development program designed to promote hands-on, inquiry-based science in their classrooms; expand their instructional repertoires to better serve students with disabilities and other learning problems; and facilitate communication between the groups. Quantitative and qualitative measures, including pre and post ratings of teacher classroom performance, action research projects, and teacher interviews, were used to determine changes in teacher instructional and collaborative practices.

  15. Multicultural Science Education and Curriculum Materials

    Science.gov (United States)

    Atwater, Mary M.

    2010-01-01

    This article describes multicultural science education and explains the purposes of multicultural science curricula. It also serves as an introductory article for the other multicultural science education activities in this special issue of "Science Activities".

  16. Democratizing science and technology education: Perspectives from the philosophy of education

    Science.gov (United States)

    Pierce, Clayton Todd

    This study examines conceptualizations of science and technology and their relation to ideas of democratic education in the history of philosophy of education. My genealogical analysis begins by tracing the anti-democratic emergence of ideas and values of science and technology that have evolved through ancient and modern periods within the philosophy of education and continue to shape the ways science and technology are understood and treated in educational settings. From my critical engagement with Plato's Republic and Rousseau's Emile, I argue that anti-democratic structures and values have been embedded in philosophy of education through Plato's educational theory of techne and Rousseau's pedagogical theory that involves science and technology as important educational force. Following this theme, I analyze the work of John Dewey and Herbert Marcuse and their shared project for democratizing science and technology through education. Through a critical comparison of both theorists' models, I suggest that each provides positive legacies for philosophy of education to draw upon in rethinking the intersection of science, technology, and education: a strong model for understanding public problems associated with a highly technological and scientific society and a reconstructive framework for values and sensibilities that demands a new value relationship to be developed between humans and science and technology. Finally, I situate my critique and assessment of this history in the philosophy of education within the current science and technology education reform movement in the United States. I claim that the official models of science and technological literacy and inquiry, as constructed by the National Academy of Sciences and a host of governmental policies, shape science and technology education with a decidedly neo-liberal focus and purpose. In response to this anti-democratic movement I offer an alternative position that utilizes a counter-epistemology to the

  17. Using NASA Data in the Classroom: Promoting STEM Learning in Formal Education using Real Space Science Data

    Science.gov (United States)

    Lawton, B.; Hemenway, M. K.; Mendez, B.; Odenwald, S.

    2013-04-01

    Among NASA's major education goals is the training of students in the Science, Technology, Engineering, and Math (STEM) disciplines. The use of real data, from some of the most sophisticated observatories in the world, provides formal educators the opportunity to teach their students real-world applications of the STEM subjects. Combining real space science data with lessons aimed at meeting state and national education standards provides a memorable educational experience that students can build upon throughout their academic careers. Many of our colleagues have adopted the use of real data in their education and public outreach (EPO) programs. There are challenges in creating resources using real data for classroom use that include, but are not limited to, accessibility to computers/Internet and proper instruction. Understanding and sharing these difficulties and best practices with the larger EPO community is critical to the development of future resources. In this session, we highlight three examples of how NASA data is being utilized in the classroom: the Galaxies and Cosmos Explorer Tool (GCET) that utilizes real Hubble Space Telescope data; the computer image-analysis resources utilized by the NASA WISE infrared mission; and the space science derived math applications from SpaceMath@NASA featuring the Chandra and Kepler space telescopes. Challenges and successes are highlighted for these projects. We also facilitate small-group discussions that focus on additional benefits and challenges of using real data in the formal education environment. The report-outs from those discussions are given here.

  18. 7 CFR 1150.161 - Promotion, research and nutrition education.

    Science.gov (United States)

    2010-01-01

    ... 7 Agriculture 9 2010-01-01 2009-01-01 true Promotion, research and nutrition education. 1150.161... MARKETING SERVICE (Marketing Agreements and Orders; Milk), DEPARTMENT OF AGRICULTURE DAIRY PROMOTION PROGRAM Dairy Promotion and Research Order Promotion, Research and Nutrition Education § 1150.161 Promotion...

  19. Making Philosophy of Science Education Practical for Science Teachers

    Science.gov (United States)

    Janssen, F. J. J. M.; van Berkel, B.

    2015-01-01

    Philosophy of science education can play a vital role in the preparation and professional development of science teachers. In order to fulfill this role a philosophy of science education should be made practical for teachers. First, multiple and inherently incomplete philosophies on the teacher and teaching on what, how and why should be…

  20. The role of science education for combating and preventing diseases

    International Nuclear Information System (INIS)

    Ghaffar, A.

    2011-01-01

    In most developing countries, the role of science education for combating and preventing diseases is both minimal and impracticable. There are two main reasons to this: i) lack of medical knowledge; and ii) lack of practical knowledge. These consequences may be a result of exclusion of medically trained people in the education system, e.g. in our education systems, there is no established trend of medical doctors to teach at school, college or even at university levels. There is a provision of medical education at teaching hospitals, but they still lack the right educationists and latest trainings at par with global standards. In order to consolidate the concept and promotion of science education in the field of health and medicine, this paper discusses four diseases commonly found in developing countries like Pakistan. These diseases are Poliomyelitis, Malaria, Rabies and Typhoid. The disability/mortality due to Poliomyelitis; the morbidity and mortality as a result of Malaria and Typhoid fever, and a very high death rate (up to 5000/year) as a result of dog bites (Rabies) are reported in Pakistan. The study takes into account myths and mysteries related to these diseases and their consequences/complications leading to mortality. This study is focused on the prophylactic measures (prophylaxis), as an ounce of prevention is worth a pound of cure. Prophytactic measures can only be taken by creating awareness about these diseases and re-evaluation of the role of science education in all sectors. (author)

  1. The role of science education for combating and preventing diseases

    Energy Technology Data Exchange (ETDEWEB)

    Ghaffar, A. [COMSATS Inst. of Information Technology, Islamabad (Pakistan). Dept. of Meteorology; Tariq, S. [Department of Meteorology, Islamabad (Pakistan)

    2011-01-15

    In most developing countries, the role of science education for combating and preventing diseases is both minimal and impracticable. There are two main reasons to this: i) lack of medical knowledge; and ii) lack of practical knowledge. These consequences may be a result of exclusion of medically trained people in the education system, e.g. in our education systems, there is no established trend of medical doctors to teach at school, college or even at university levels. There is a provision of medical education at teaching hospitals, but they still lack the right educationists and latest trainings at par with global standards. In order to consolidate the concept and promotion of science education in the field of health and medicine, this paper discusses four diseases commonly found in developing countries like Pakistan. These diseases are Poliomyelitis, Malaria, Rabies and Typhoid. The disability/mortality due to Poliomyelitis; the morbidity and mortality as a result of Malaria and Typhoid fever, and a very high death rate (up to 5000/year) as a result of dog bites (Rabies) are reported in Pakistan. The study takes into account myths and mysteries related to these diseases and their consequences/complications leading to mortality. This study is focused on the prophylactic measures (prophylaxis), as an ounce of prevention is worth a pound of cure. Prophytactic measures can only be taken by creating awareness about these diseases and re-evaluation of the role of science education in all sectors. (author)

  2. Science Education Notes.

    Science.gov (United States)

    School Science Review, 1982

    1982-01-01

    Discusses: (1) the nature of science; (2) Ausubel's learning theory and its application to introductory science; and (3) mathematics and physics instruction. Outlines a checklist approach to Certificate of Extended Education (CSE) practical assessment in biology. (JN)

  3. Leadership that promotes teacher empowerment among urban middle school science teachers

    Science.gov (United States)

    Howard-Skipper, Joni

    In this study, the focus was on determining leadership strategies that promote teacher empowerment among urban middle school science teachers. The purpose of the paper was to determine if leadership strategies are related to teacher empowerment. The emphasis was on various forms of leadership and the empowerment of teachers in context in restructuring the democratic structure. An effective leadership in science education entails empowering others, especially science teachers. In this regard, no published studies had examined this perspective on empowering teachers and school leadership. Therefore, this study determined if a relationship exists between leadership strategy actions and teacher empowerment. The significance of the study is to determine a relationship between leadership strategies and teacher empowerment as a positive approach toward developing successful schools. Empowerment is essential for implementing serious improvements. Empowering others in schools must form a major component of an effective principal's agenda. It is becoming clearer in research literature that complex changes in education sometimes require active initiation. For this study, a quantitative methodology was used. Primary data enabled the research questions to be answered. The reliability and validity of the research were ensured. The results of this study showed that 40% of the administrators establish program policies with teachers, and 53% of teachers make decisions about new programs in schools. Furthermore, the findings, their implications, and recommendations are discussed.

  4. Science education ahead?

    Science.gov (United States)

    1999-01-01

    In spite of the achievements and successes of science education in recent years, certain problems undoubtedly remain. Firstly the content taught at secondary level has largely remained unchanged from what had been originally intended to meet the needs of those who would go on to become scientists. Secondly the curriculum is overloaded with factual content rather than emphasizing applications of scientific knowledge and skills and the connections between science and technology. Thirdly the curriculum does not relate to the needs and interests of the pupils. A recent report entitled Beyond 2000: Science Education for the Future, derived from a series of seminars funded by the Nuffield Foundation, attempts to address these issues by setting out clear aims and describing new approaches to achieve them. Joint editors of the report are Robin Millar of the University of York and Jonathan Osborne of King's College London. The recommendations are that the curriculum should contain a clear statement of its aims, with the 5 - 16 science curriculum seen as enhancing general `scientific literacy'. At key stage 4 there should be more differentiation between the literacy elements and those designed for the early stages of a specialist training in science; up to the end of key stage 3 a common curriculum is still appropriate. The curriculum should be presented clearly and simply, following on from the statement of aims, and should provide young people with an understanding of some key `ideas about science'. A wide variety of teaching methods and approaches should be encouraged, and the assessment approaches for reporting on students' performance should focus on their ability to understand and interpret information as well as their knowledge and understanding of scientific ideas. The last three recommendations in the report cover the incorporation of aspects of technology and the applications of science into the curriculum, with no substantial change overall in the short term but a

  5. Perspectives of the Sociology of Scientific Knowledge and Science Education: a study of Education Journals

    Directory of Open Access Journals (Sweden)

    Fernanda Aparecida Meglhioratti

    2018-04-01

    the boundaries between science and its surroundings are diluted. Furthermore, although there is a restricted number of authors and texts, the survey has showed that there is a diversity of research objects and methodological strategies in the analyzed papers in order to promote the dialogue among Sociology of Science/Sociology of Scientific Knowledge and Science Education.

  6. Science Education - Deja Vu Revised.

    Science.gov (United States)

    Walsh, John

    1982-01-01

    Summarizes views expressed and issues raised at the National Convocation on Precollege Education in Mathematics and Science and another meeting to establish a coalition of affiliates for science and mathematics education. (DC)

  7. Reforming Science Education: Part II. Utilizing Kieran Egan's Educational Metatheory

    Science.gov (United States)

    Schulz, Roland M.

    2009-04-01

    This paper is the second of two parts and continues the conversation which had called for a shift in the conceptual focus of science education towards philosophy of education, with the requirement to develop a discipline-specific “philosophy” of science education. In Part I, conflicting conceptions of science literacy were identified with disparate “visions” tied to competing research programs as well as school-based curricular paradigms. The impasse in the goals of science education and thereto, the contending views of science literacy, were themselves associated with three underlying fundamental aims of education (knowledge-itself; personal development; socialization) which, it was argued, usually undercut the potential of each other. During periods of “crisis-talk” and throughout science educational history these three aims have repeatedly attempted to assert themselves. The inability of science education research to affect long-term change in classrooms was correlated not only to the failure to reach a consensus on the aims (due to competing programs and to the educational ideologies of their social groups), but especially to the failure of developing true educational theories (largely neglected since Hirst). Such theories, especially metatheories, could serve to reinforce science education’s growing sense of academic autonomy and independence from socio-economic demands. In Part II, I offer as a suggestion Egan’s cultural-linguistic theory as a metatheory to help resolve the impasse. I hope to make reformers familiar with his important ideas in general, and more specifically, to show how they can complement HPS rationales and reinforce the work of those researchers who have emphasized the value of narrative in learning science.

  8. Disciplinary analysis of nuclear engineering education for 21{sup st} century style science and technology

    Energy Technology Data Exchange (ETDEWEB)

    Woo, Taeho [Seoul National Univ. (Korea, Republic of). Dept. of Nuclear Engineering; Yoon, Jaehwan [2G-PEM Engineers, Inc., Seoul (Korea, Republic of)

    2012-03-15

    The nuclear engineering education (NEE) is analyzed by the aspect of the advanced science and technology which is characterized by interdisciplinary R and D. The creative innovation is a goal of the education. This work is performed by the conceptual analysis and numerical analysis. Creativity and its innovation are represented as a critical role in the science and technology. So, the education should follow the characteristics of the creativity and its innovation philosophy. Using system dynamics (SD) method, the quantification of the education effect is performed. In addition, the dynamical simulation shows the expected situations of the education usefulness. The final result shows the highest value is 19.11 of Nuclear Industry Innovation. The value increases gradually. So, the education is well developed, as time goes on in this study. In this paper, the education of the nuclear science and technology is modelled for the interdisciplinary promotions in the nuclear industry. The conventional technology has focused on the unit subject and its related technologies. By the way, creativity and its innovation are shown as a critical role in the science and technology. Hence, the education should follow the characteristics of the creativity and its innovation philosophy. Following the characteristics of the 21{sup st} style science and technology, it is necessary to construct the education program of the information technology (IT), nanotechnology (NT), and biotechnology (BT). (orig.)

  9. Symposium 1: Challenges in science education and popularization of Science

    Directory of Open Access Journals (Sweden)

    Ildeo de Castro Moreira

    2014-08-01

    Full Text Available Science education and popularization of science are important elements for social inclusion. The Brazil exhibits strong inequalities regarding the distribution of wealth, access to cultural assets and appropriation of scientific and technological knowledge. Each Brazilian should have the opportunity to acquire a basic knowledge of science and its operation that allow them to understand their environment and expand their professional opportunities. However, the overall performance of Brazilian students in science and math is bad. The basic science education has, most often, few resources and is discouraging, with little appreciation of experimentation, interdisciplinarity and creativity. Beside the shortage of science teachers, especially teachers with good formation, predominate poor wage and working conditions, and deficiencies in instructional materials and laboratories. If there was a significant expansion in access to basic education, the challenge remains to improve their quality. According to the last National Conference of STI, there is need of a profound educational reform at all levels, in particular with regard to science education. Already, the popularization of science can be an important tool for the construction of scientific culture and refinement of the formal teaching instrument. However, we still lack a comprehensive and adequate public policy to her intended. Clearly, in recent decades, an increase in scientific publication occurred: creating science centers and museums; greater media presence; use of the internet and social networks; outreach events, such as the National Week of CT. But the scenario is shown still fragile and limited to broad swathes of Brazilians without access to scientific education and qualified information on CT. In this presentation, from a general diagnosis of the situation, some of the main challenges related to education and popularization of science in the country will address herself.

  10. Bridging the Gap: The Role of Research in Science Education

    Science.gov (United States)

    Adams, M. L.; Michael, P. J.

    2001-12-01

    Teaching in K-12 science classrooms across the country does not accurately model the real processes of science. To fill this gap, programs that integrate science education and research are imperative. Teachers Experiencing Antarctica and the Arctic (TEA) is a program sponsored and supported by many groups including NSF, the Division of Elementary, Secondary, and Informal Education (ESIE), and the American Museum of Natural History (AMNH). It places teachers in partnerships with research scientists conducting work in polar regions. TEA immerses K-12 teachers in the processes of scientific investigation and enables conveyance of the experience to the educational community and public at large. The TEA program paired me with Dr. Peter Michael from the University of Tulsa to participate in AMORE (Arctic Mid-Ocean Ridge Expedition) 2001. This international mission, combining the efforts of the USCGC Healy and RV Polarstern, involved cutting-edge research along the geologically and geophysically unsampled submarine Gakkel Ridge. While in the field, I was involved with dredge operations, CTD casts, rock cataloging/ processing, and bathymetric mapping. While immersed in these aspects of research, daily journals documented the scientific research and human aspects of life and work on board the Healy. E-mail capabilities allowed the exchange of hundreds of questions, answers and comments over the course of our expedition. The audience included students, numerous K-12 teachers, research scientists, NSF personnel, strangers, and the press. The expedition interested and impacted hundreds of individuals as it was proceeding. The knowledge gained by science educators through research expeditions promotes an understanding of what research science is all about. It gives teachers a framework on which to build strong, well-prepared students with a greater awareness of the role and relevance of scientific research. Opportunities such as this provide valauble partnerships that bridge

  11. Promoting the achievement of girls in GCSE science

    Science.gov (United States)

    Morton, Kevin Charles

    This study, designed to challenge the under-representation and limited attainment of girls in the physical sciences in an 11-16 comprehensive school, was suggested by research into attitude formation by Kelly et al in the early 1980s. Balanced science, in removing opportunities for girls to opt out of the physical sciences, made it essential to identify those factors which were adversely affecting girls' attitudes towards science.Preliminary research tasks investigated stereotypical attitudes towards science activities and the school curriculum amongst students and their parents. Additional research probed students' perceptions of their ability in science and the relevance of science subjects. Students' attitudes towards science and science teaching were investigated in relation to their option and career choices. These data influenced the choice of MEG Coordinated Science (The Suffolk Development) as the GCSE balanced science course for the school.The subsequent programme of action research included a series of small-scale investigations, involving both monitoring and evaluation, designed to develop the Suffolk scheme and satisfy the research aims. Student attitudes towards teaching methods and the Suffolk materials were amongst those areas investigated. After evaluation the findings were channelled into the action research spiral to integrate teaching methods and curriculum development thereby promoting the attitudes and achievement of the girls.Improvements in attainment by all students, particularly the girls, were illustrated by increasing GCSE success. Although the traditional pattern of boys' superiority within the physical sciences was markedly reduced the research demonstrated that it is possible to improve the attainment of girls within GCSE science without discriminating against boys.Student opinion and the GCSE data suggested that the girls' achievements could be partially explained by the coursework-led assessment which suited the girls' preferred

  12. Feyerabend on Science and Education

    Science.gov (United States)

    Kidd, Ian James

    2013-01-01

    This article offers a sympathetic interpretation of Paul Feyerabend's remarks on science and education. I present a formative episode in the development of his educational ideas--the "Berkeley experience"--and describe how it affected his views on the place of science within modern education. It emerges that Feyerabend arrived at a…

  13. Frame Analysis in Science Education: A Classroom Activity for Promoting Media Literacy and Learning about Genetic Causation

    Science.gov (United States)

    Carver, Rebecca Bruu; Wiese, Eline Fatima; Breivik, Jarle

    2014-01-01

    After completion of formal education, the mass media represent people's primary source of scientific information. Besides the traditional attention to scientific knowledge, national curricula are therefore increasingly emphasizing critical and reflexive engagement with media content as a key objective of science education. Despite this curricular…

  14. The Blueprint for Change: A National Strategy to Enhance Access to Earth and Space Science Education Resources

    Science.gov (United States)

    Geary, E. E.; Barstow, D.

    2001-12-01

    Enhancing access to high quality science education resources for teachers, students, and the general public is a high priority for the earth and space science education communities. However, to significantly increase access to these resources and promote their effective use will require a coordinated effort between content developers, publishers, professional developers, policy makers, and users in both formal and informal education settings. Federal agencies, academic institutions, professional societies, informal science centers, the Digital Library for Earth System Education, and other National SMETE Digital Library Projects are anticipated to play key roles in this effort. As a first step to developing a coordinated, national strategy for developing and delivering high quality earth and space science education resources to students, teachers, and the general public, 65 science educators, scientists, teachers, administrators, policy makers, and business leaders met this June in Snowmass, Colorado to create "Earth and Space Science Education 2010: A Blueprint for Change". The Blueprint is a strategy document that will be used to guide Earth and space science education reform efforts in grades K-12 during the next decade. The Blueprint contains specific goals, recommendations, and strategies for coordinating action in the areas of: Teacher Preparation and Professional Development, Curriculum and Materials, Equity and Diversity, Assessment and Evaluation, Public Policy and Systemic Reform, Public and Informal Education, Partnerships and Collaborations, and Technology. If you develop, disseminate, or use exemplary earth and space science education resources, we invite you to review the Blueprint for Change, share it with your colleagues and local science educators, and join as we work to revolutionize earth and space science education in grades K-12.

  15. SSMA Science Reviewers' Forecasts for the Future of Science Education.

    Science.gov (United States)

    Jinks, Jerry; Hoffer, Terry

    1989-01-01

    Described is a study which was conducted as an exploratory assessment of science reviewers' perceptions for the future of science education. Arrives at interpretations for identified categories of computers and high technology, science curriculum, teacher education, training, certification, standards, teaching methods, and materials. (RT)

  16. Fermilab Friends for Science Education | Join Us

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Join Us improving science (science, technology, engineering and mathematics) education. Your donation allows us to membership dues allow us to create new, innovative science education programs, making the best use of unique

  17. Basic science right, not basic science lite: medical education at a crossroad.

    Science.gov (United States)

    Fincher, Ruth-Marie E; Wallach, Paul M; Richardson, W Scott

    2009-11-01

    This perspective is a counterpoint to Dr. Brass' article, Basic biomedical sciences and the future of medical education: implications for internal medicine. The authors review development of the US medical education system as an introduction to a discussion of Dr. Brass' perspectives. The authors agree that sound scientific foundations and skill in critical thinking are important and that effective educational strategies to improve foundational science education should be implemented. Unfortunately, many students do not perceive the relevance of basic science education to clinical practice.The authors cite areas of disagreement. They believe it is unlikely that the importance of basic sciences will be diminished by contemporary directions in medical education and planned modifications of USMLE. Graduates' diminished interest in internal medicine is unlikely from changes in basic science education.Thoughtful changes in education provide the opportunity to improve understanding of fundamental sciences, the process of scientific inquiry, and translation of that knowledge to clinical practice.

  18. Hands-on science: science education with and for society

    OpenAIRE

    Costa, Manuel F. M., ed. lit.; Pombo, José Miguel Marques, ed. lit.; Vázquez Dorrío, José Benito, ed. lit.

    2014-01-01

    The decisive importance of Science on the development of modern societies gives Science Education a role of special impact. Society sets the requirements rules and procedures of Education defining what concepts and competencies citizens must learn and how this learning should take place. Educational policies set by governments, elected and or imposed, not always reflects the will and ruling of Society. The School as pivotal element of our modern educational system must look ...

  19. Transforming Elementary Science Teacher Education by Bridging Formal and Informal Science Education in an Innovative Science Methods Course

    Science.gov (United States)

    Riedinger, Kelly; Marbach-Ad, Gili; McGinnis, J. Randy; Hestness, Emily; Pease, Rebecca

    2011-01-01

    We investigated curricular and pedagogical innovations in an undergraduate science methods course for elementary education majors at the University of Maryland. The goals of the innovative elementary science methods course included: improving students' attitudes toward and views of science and science teaching, to model innovative science teaching…

  20. Leadership Education for Advancement and Promotion (LEAP)

    Science.gov (United States)

    Rankin, Patricia

    2004-05-01

    A NSF ADVANCE Institutional Transformation award funds the Leadership Education for Advancement and Promotion (LEAP) project at the University of Colorado, Boulder (UCB). LEAP is the third year of a five-year program. The purpose of LEAP is to increase the number of women in leadership positions in the sciences and engineering. The author, who is PI of the project, will discuss what approaches the LEAP project is taking at UCB to improve faculty retention and to help faculty be more successful. Questions that will be addressed include 1) Is this a historic problem? 2) Is the playing field level? 3) Why are LEAP programs not aimed solely at women faculty? 4) What helps? 5) What is needed to change an institution? (The NSF (SBE-0123636) funds this work.)

  1. Introduction to Global Health Promotion.

    Science.gov (United States)

    Torres, Jennifer

    2017-03-01

    Global health education is becoming increasingly prominent in universities throughout the country especially in programs focused on health and behavioral sciences, law, economics, and political science. Introduction to Global Health Promotion is a book that can be used by both instructors and students in the field of global health. The book provides theories and models, human rights, and technology relevant to the field. In addition the book is designed to share best evidence for promoting health and reducing morbidity and mortality in a variety of areas. The book can be used by health educators, public health practitioners, professors, and students as a resource for research and practice in the field of health promotion and disease prevention.

  2. Creating Learning Experiences that Promote Informal Science Education: Designing Conservation-Focused Interactive Zoo Exhibits through Action Research

    Science.gov (United States)

    Kalenda, Peter

    Research on exhibit design over the past twenty years has started to identify many different methods to increase the learning that occurs in informal education environments. This study utilized relevant research on exhibit design to create and study the effectiveness of a mobile interactive exhibit at the Seneca Park Zoo that promotes socialization, engagement in science, and conservation-related practices among guests. This study will serve as one component of a major redesign project at the Seneca Park Zoo for their Rocky Coasts exhibit. This action research study targeted the following question, "How can interactive exhibits be designed to promote socialization, engagement in science, and real-world conservation-related practices (RCPs) among zoo guests?" Specific research questions included: 1. In what ways did guests engage with the exhibit? 2. In what ways were guests impacted by the exhibit? a) What evidence exists, if any, of guests learning science content from the exhibit? b) What evidence exists, if any, of guests being emotionally affected by the exhibit? c) What evidence exists, if any, of guests changing their RCPs after visiting the exhibit? Data were collected through zoo guest surveys completed by zoo guests comparing multiple exhibits, interviews with guests before and after they used the prototype exhibit, observations and audio recordings of guests using the prototype exhibit, and follow-up phone interviews with guests who volunteered to participate. Data were analyzed collaboratively with members of the zoo's exhibit Redesign Team using grounded theory qualitative data analysis techniques to find patterns and trends among data. Initial findings from data analysis were used to develop shifts in the exhibit in order to increase visitor engagement and learning. This process continued for two full action research spirals, which resulted in three iterations of the prototype exhibit. The overall findings of this study highlight the ways in which

  3. Fermilab Friends for Science Education | Programs

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Programs Donors Board of Directors Board Tools Calendar Join Us Donate Now Get FermiGear! Education Office Search photo Fermilab Friends for Science Education, in partnership with Fermilab and area educators, designs

  4. The nature of science in science education: theories and practices

    Directory of Open Access Journals (Sweden)

    Ana Maria Morais

    2018-01-01

    Full Text Available The article is based on results of research carried out by the ESSA Group (Sociological Studies of the Classroom centred on the inclusion of the nature of science (metascience on science education. The results, based on analyses of various educational texts and contexts – curricula/syllabuses, textbooks and pedagogic practices – and of the relations between those texts/contexts, have in general shown a reduced presence and low conceptualization of metascience. The article starts by presenting the theoretical framework of the research of the ESSA Group which was focused on the introduction of the nature of science in science education. It is mostly based on Ziman’s conceptualization of metascience (1984, 2000 and on Bernstein’s theorization of production and reproduction of knowledge, particularly his model of pedagogic discourse (1990, 2000 and knowledge structures (1999. This is followed by the description of a pedagogical strategy, theoretically grounded, which explores the nature of science in the classroom context. The intention is to give an example of a strategy which privileges a high level learning for all students and which may contribute to a reflection about the inclusion of the nature of science on science education. Finally, considerations are made about the applicability of the strategy on the basis of previous theoretical and empirical arguments which sustain its use in the context of science education.

  5. Project of international science-education center and integration problems of nano science education in far eastern region of Asia

    International Nuclear Information System (INIS)

    Plusnin, N I; Lazarev, G I

    2008-01-01

    Some conception of international science-education center on nano science in Vladivostok is presented. The conception is based on internal and external prerequisites. Internal one is high intellectual potential of institutes of Russian Academy of Sciences and universities of Vladivostok and external one is need of countries of Far Eastern region of Asia in high level manpower. The conception takes into account a specific distribution of science and education potential between Russian Academy of Sciences and Russian universities and a specific their dislocation in Vladivostok. First specific dictates some similarity of organization structure and function of international science-education center to typical science-education center in Russia. But as for dislocation of the international science-education center in Vladivostok, it should be near dislocation of institutes of Far Eastern Brunch of Russian Academy of Sciences in Vladivostok, which are dislocated very compactly in suburb zone of Vladivostok

  6. Are Science Teachers Prepared to Promote Argumentation? A Case Study with Pre-Service Teachers in Bogotá City

    Science.gov (United States)

    Archila, Pablo Antonio

    2014-01-01

    This paper addresses the importance of argumentation in science education. A research project was done in order to know how a group of pre-service chemistry teachers has been prepared to promote students' argumentation. A Chemistry degree studies plan from a Colombian university was surveyed, and 18 future teachers' representations about…

  7. The Centers for Ocean Science Education Excellence (COSEE) initiative

    Science.gov (United States)

    Cook, S.; Rom, E.

    2003-04-01

    Seven regional Centers for Ocean Science Education Excellence have recently been established to promote the integration of ocean science research into high-quality education programs aimed at both formal and informal audiences throughout the United States. The regional Centers include two complementary partnerships in California, a New England regional effort, a Mid-Atlantic partnership, a Southeastern collaborative, a Florida initiative and a central Gulf of Mexico alliance. A Central Coordinating Office in Washington DC will help the group develop into a cohesive and focused national network. Initial funding has been provided by the National Science Foundation with complementary support from the Office of Naval Research and multiple units within the National Oceanographic and Atmospheric Administration (specifically the National Ocean Service, the Office of Ocean Exploration and the National SeaGrant Office). Under an umbrella of common goals and objectives, the first cohort of Centers in the COSEE network is remarkably diverse in terms of geography, organizational structure and programmatic focus. NSF’s presentation will describe these partnerships, the different approaches that are being taken by the individual Centers and the expectations that NSF has for the network as a whole.

  8. Impact of SCALE-UP on science teaching self-efficacy of students in general education science courses

    Science.gov (United States)

    Cassani, Mary Kay Kuhr

    The objective of this study was to evaluate the effect of two pedagogical models used in general education science on non-majors' science teaching self-efficacy. Science teaching self-efficacy can be influenced by inquiry and cooperative learning, through cognitive mechanisms described by Bandura (1997). The Student Centered Activities for Large Enrollment Undergraduate Programs (SCALE-UP) model of inquiry and cooperative learning incorporates cooperative learning and inquiry-guided learning in large enrollment combined lecture-laboratory classes (Oliver-Hoyo & Beichner, 2004). SCALE-UP was adopted by a small but rapidly growing public university in the southeastern United States in three undergraduate, general education science courses for non-science majors in the Fall 2006 and Spring 2007 semesters. Students in these courses were compared with students in three other general education science courses for non-science majors taught with the standard teaching model at the host university. The standard model combines lecture and laboratory in the same course, with smaller enrollments and utilizes cooperative learning. Science teaching self-efficacy was measured using the Science Teaching Efficacy Belief Instrument - B (STEBI-B; Bleicher, 2004). A science teaching self-efficacy score was computed from the Personal Science Teaching Efficacy (PTSE) factor of the instrument. Using non-parametric statistics, no significant difference was found between teaching models, between genders, within models, among instructors, or among courses. The number of previous science courses was significantly correlated with PTSE score. Student responses to open-ended questions indicated that students felt the larger enrollment in the SCALE-UP room reduced individual teacher attention but that the large round SCALE-UP tables promoted group interaction. Students responded positively to cooperative and hands-on activities, and would encourage inclusion of more such activities in all of the

  9. University Science and Mathematics Education in Transition

    DEFF Research Database (Denmark)

    Skovsmose, Ole; Valero, Paola; Christensen, Ole Ravn

    configuration poses to scientific knowledge, to universities and especially to education in mathematics and science. Traditionally, educational studies in mathematics and science education have looked at change in education from within the scientific disciplines and in the closed context of the classroom....... Although educational change is ultimately implemented in everyday teaching and learning situations, other parallel dimensions influencing these situations cannot be forgotten. An understanding of the actual potentialities and limitations of educational transformations are highly dependent on the network...... of educational, cultural, administrative and ideological views and practices that permeate and constitute science and mathematics education in universities today. University Science and Mathematics Education in Transition contributes to an understanding of the multiple aspects and dimensions of the transition...

  10. Educational Technology Classics: The Science Teacher and Educational Technology

    Science.gov (United States)

    Harbeck, Richard M.

    2015-01-01

    The science teacher is the key person who has the commitment and the responsibility for carrying out any brand of science education. All of the investments, predictions, and expressions of concern will have little effect on the accomplishment of the broad goals of science education if these are not reflected in the situations in which learning…

  11. The feasibility of educating trainee science teachers in issues of science and religion

    Science.gov (United States)

    Poole, Michael

    2016-06-01

    This article reflects on Roussel De Carvalho's paper `Science initial teacher education and superdiversity: educating science teachers for a multi-religious and globalized science classroom'. It then offers suggestions for making some of the ambitious goals of the science-and-religion components of the science initial teacher education project more manageable.

  12. Promoting Science Learning and Scientific Identification through Contemporary Scientific Investigations

    Science.gov (United States)

    Van Horne, Katie

    This dissertation investigates the implementation issues and the educational opportunities associated with "taking the practice turn" in science education. This pedagogical shift focuses instructional experiences on engaging students in the epistemic practices of science both to learn the core ideas of the disciplines, as well as to gain an understanding of and personal connection to the scientific enterprise. In Chapter 2, I examine the teacher-researcher co-design collaboration that supported the classroom implementation of a year-long, project-based biology curriculum that was under development. This study explores the dilemmas that arose when teachers implemented a new intervention and how the dilemmas arose and were managed throughout the collaboration of researchers and teachers and between the teachers. In the design-based research of Chapter 3, I demonstrate how students' engagement in epistemic practices in contemporary science investigations supported their conceptual development about genetics. The analysis shows how this involved a complex interaction between the scientific, school and community practices in students' lives and how through varied participation in the practices students come to write about and recognize how contemporary investigations can give them leverage for science-based action outside of the school setting. Finally, Chapter 4 explores the characteristics of learning environments for supporting the development of scientific practice-linked identities. Specific features of the learning environment---access to the intellectual work of the domain, authentic roles and accountability, space to make meaningful contributions in relation to personal interests, and practice-linked identity resources that arose from interactions in the learning setting---supported learners in stabilizing practice-linked science identities through their engagement in contemporary scientific practices. This set of studies shows that providing students with the

  13. Education science and biological anthropology.

    Science.gov (United States)

    Krebs, Uwe

    2014-01-01

    This contribution states deficits and makes proposals in order to overcome them. First there is the question as to why the Biological Anthropology--despite all its diversifications--hardly ever deals with educational aspects of its subject. Second it is the question as to why Educational Science neglects or even ignores data of Biological Anthropology which are recognizably important for its subject. It is postulated that the stated deficits are caused by several adverse influences such as, the individual identity of each of the involved single sciences; aspects of the recent history of the German Anthropology; a lack of conceptual understanding of each other; methodological differences and, last but not least, the structure of the universities. The necessity to remedy this situation was deduced from two groups of facts. First, more recent data of the Biological Anthropology (e.g. brain functions and learning, sex specificity and education) are of substantial relevance for the Educational Science. Second, the epistemological requirements of complex subjects like education need interdisciplinary approaches. Finally, a few suggestions of concrete topics are given which are related to both, Educational Science and Biological Anthropology.

  14. Research trends and issues in informal science education

    Science.gov (United States)

    Pinthong, Tanwarat; Faikhamta, Chatree

    2018-01-01

    Research in informal science education (ISE) become more interesting area in science education for a few decades. The main purpose of this research is to analyse research articles in 30 issues of top three international journals in science education; Journal of Research in Science Teaching, Science Education, and the International Journal of Science Education. The research articles during 2007 and 2016 were reviewed and analysed according to the authors' nationality, informal science education's research topics, research paradigms, methods of data collection and data analysis. The research findings indicated that there were 201 published papers related to informal science education, successfully submitted by 469 authors from 27 different countries. In 2008, there was no article related to informal science education. Statistical analyses showed that authors from USA are the most dominant, followed by UK and Israel. The top three ISE's research topics most frequently investigated by the researchers were regarding students' informal learning, public understanding in science, and informal perspectives, policies and paradigms. It is also found that theoretical framework used in informal science education which is becoming more strongly rooted is in a mix of the sociocultural and constructivist paradigms, with a growing acceptance of qualitative research methods and analyses.

  15. Development of activities to promote the interest in science and technology in elementary and middle school students

    Science.gov (United States)

    Sicardi-Segade, A.; Campos-Mejía, A.; Solano, C.

    2016-09-01

    Innovation through science and technology will be essential to solve important challenges humanity will have to face in the years to come, regarding clean energies, food quality, medicine, communications, etc. To deal with these important issues, it is necessary to promote STEM (Science, Technology, Engineering and Mathematics) education in children. In this work, we present the results of the strategies that we have implemented to increase the elementary and middle school students interest in science and technology by means of activities that allow them to use and develop their creativity, team work, critical thinking, and the use of the scientific method and the engineering design process.

  16. 76 FR 11765 - Education Research and Special Education Research Grant Programs; Institute of Education Sciences...

    Science.gov (United States)

    2011-03-03

    ... DEPARTMENT OF EDUCATION Education Research and Special Education Research Grant Programs; Institute of Education Sciences; Overview Information; Education Research and Special Education Research.... SUMMARY: The Director of the Institute of Education Sciences (Institute) announces the Institute's FY 2012...

  17. Conceptualizing In-service Secondary School Science Teachers' Knowledge Base for Promoting Understanding about the Science of Global Climate Change

    Science.gov (United States)

    Bhattacharya, Devarati

    Efforts to adapt and mitigate the effects of global climate change (GCC) have been ongoing for the past two decades and have become a major global concern. However, research and practice for promoting climate literacy and understanding about GCC have only recently become a national priority. The National Research Council (NRC), has recently emphasized upon the importance of developing learners' capacity of reasoning, their argumentation skills and understanding of GCC (Framework for K-12 Science Education, National Research Council, 2012). This framework focuses on fostering conceptual clarity about GCC to promote innovation, resilience, and readiness in students as a response towards the threat of a changing environment. Previous research about teacher understanding of GCC describes that in spite of the prevalent frameworks like the AAAS Science Literacy Atlas (AAAS, 2007) and the Essential Principles for Climate Literacy (United States Global Climate Research Program, 2009; Bardsley, 2007), most learners are challenged in understanding the science of GCC (Michail et al., 2007) and misinformed perceptions about basic climate science content and the role of human activities in changing climate remain persistent (Reibich and Gautier, 2006). Our teacher participants had a rather simplistic knowledge structure. While aware of climate change, teacher participants lacked in depth understanding of how change in climate can impact various ecosystems on the Earth. Furthermore, they felt overwhelmed with the extensive amount of information needed to comprehend the complexity in GCC. Hence, extensive efforts not only focused on assessing conceptual understanding of GCC but also for teaching complex science topics like GCC are essential. This dissertation explains concept mapping, and the photo elicitation method for assessing teachers' understanding of GCC and the use of metacognitive scaffolding in instruction of GCC for developing competence of learners in this complex

  18. Concepts of matter in science education

    CERN Document Server

    Sevian, Hannah

    2013-01-01

    Bringing together a wide collection of ideas, reviews, analyses and new research on particulate and structural concepts of matter, Concepts of Matter in Science Education informs practice from pre-school through graduate school learning and teaching and aims to inspire progress in science education. The expert contributors offer a range of reviews and critical analyses of related literature and in-depth analysis of specific issues, as well as new research. Among the themes covered are learning progressions for teaching a particle model of matter, the mental models of both students and teachers of the particulate nature of matter, educational technology, chemical reactions and chemical phenomena, chemical structure and bonding, quantum chemistry and the history and philosophy of science relating to the particulate nature of matter. The book will benefit a wide audience including classroom practitioners and student teachers at every educational level, teacher educators and researchers in science education.

  19. On nuclear power problem in science education in Japan. Supplementary reader, authorization and scientific literacy for citizen

    International Nuclear Information System (INIS)

    Ryu, Jumpei

    2012-01-01

    Distribution of 'supplementary reader on nuclear power: Challenge! Nuclear power world' issued in 2010 and 'supplementary reader on radiation' issued in October 2011 was shelved in June 2012 by the administrative project review with revised policy of nuclear education for nuclear power promotion reflected. Great East Japan Earthquake and Fukushima Daiichi Nuclear Power Accident brought about great effects and change on fundamental conditions of citizen's life as well as national consciousness of future society in Japan. Reconsideration of scientific education should be needed taking account how to recognize 'scientific literacy' and 'scientific communication'. This article discussed nuclear power problem related with supplementary reader and nuclear power education so as to establish science education framework for 'scientific literacy' for citizen. Preparation of nuclear power education at junior high school according to guideline of new course of study was reviewed and then 'scientific literacy' based on British science higher level student textbook for public understanding of science in society was described for reference, which suggested some problem in science education in Japan although social background was different. (T. Tanaka)

  20. Science, Worldviews, and Education

    Science.gov (United States)

    Gauch, Hugh G., Jr.

    2009-01-01

    Whether science can reach conclusions with substantial worldview import, such as whether supernatural beings exist or the universe is purposeful, is a significant but unsettled aspect of science. For instance, various scientists, philosophers, and educators have explored the implications of science for a theistic worldview, with opinions spanning…

  1. Globalizing Space and Earth Science - the International Heliophysical Year Education and Outreach Program

    Science.gov (United States)

    Rabello-Soares, M. C.; Morrow, C.; Thompson, B. J.

    2006-08-01

    The International Heliophysical Year (IHY) in 2007 & 2008 will celebrate the 50th anniversary of the International Geophysical Year (IGY) and, following its tradition of international research collaboration, will focus on the cross-disciplinary studies of universal processes in the heliosphere. The main goal of IHY Education and Outreach Program is to create more global access to exemplary resources in space and earth science education and public outreach. By taking advantage of the IHY organization with representatives in every nation and in the partnership with the United Nations Basic Space Science Initiative (UNBSSI), we aim to promote new international partnerships. Our goal is to assist in increasing the visibility and accessibility of exemplary programs and in the identification of formal or informal educational products that would be beneficial to improve the space and earth science knowledge in a given country; leaving a legacy of enhanced global access to resources and of world-wide connectivity between those engaged in education and public outreach efforts that are related to IHY science. Here we describe how to participate in the IHY Education and Outreach Program and the benefits in doing so. Emphasis will be given to the role played by developing countries; not only in selecting useful resources and helping in their translation and adaptation, but also in providing different approaches and techniques in teaching.

  2. Fermilab Friends for Science Education | Support Us

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Support Us improving science (science, technology, engineering and mathematics) education. Your donation allows us to Testimonials Our Donors Board of Directors Board Tools Calendar Join Us Donate Now Get FermiGear! Education

  3. 75 FR 13265 - National Board for Education Sciences

    Science.gov (United States)

    2010-03-19

    ... DEPARTMENT OF EDUCATION National Board for Education Sciences AGENCY: Institute of Education Sciences, Department of Education. ACTION: Notice of an open meeting. SUMMARY: This notice sets forth the schedule and proposed agenda of an upcoming meeting of the National Board for Education Sciences. The...

  4. 75 FR 53280 - National Board for Education Sciences

    Science.gov (United States)

    2010-08-31

    ... DEPARTMENT OF EDUCATION National Board for Education Sciences AGENCY: Department of Education, Institute of Education Sciences. ACTION: Notice of an open meeting. SUMMARY: This notice sets forth the schedule and proposed agenda of an upcoming meeting of the National Board for Education Sciences. The...

  5. The Nature of Science and Science Education: A Bibliography

    Science.gov (United States)

    Bell, Randy; Abd-El-Khalick, Fouad; Lederman, Norman G.; Mccomas, William F.; Matthews, Michael R.

    Research on the nature of science and science education enjoys a long history, with its origins in Ernst Mach's work in the late nineteenth century and John Dewey's at the beginning of the twentieth century. As early as 1909 the Central Association for Science and Mathematics Teachers published an article - A Consideration of the Principles that Should Determine the Courses in Biology in Secondary Schools - in School Science and Mathematics that reflected foundational concerns about science and how school curricula should be informed by them. Since then a large body of literature has developed related to the teaching and learning about nature of science - see, for example, the Lederman (1992)and Meichtry (1993) reviews cited below. As well there has been intense philosophical, historical and philosophical debate about the nature of science itself, culminating in the much-publicised Science Wars of recent time. Thereferences listed here primarily focus on the empirical research related to the nature of science as an educational goal; along with a few influential philosophical works by such authors as Kuhn, Popper, Laudan, Lakatos, and others. While not exhaustive, the list should prove useful to educators, and scholars in other fields, interested in the nature of science and how its understanding can be realised as a goal of science instruction. The authors welcome correspondence regarding omissions from the list, and on-going additions that can be made to it.

  6. Textbooks in the teaching of Botany in primary school education in Portugal : promoting critical reflection on environmental issues?

    OpenAIRE

    Guimarães, Fernando

    2009-01-01

    Textbooks are of great importance to school and teaching especially in the conformation of forms and contents of pedagogical knowledge. In what natural sciences are concerned, textbooks are aimed at promoting scientific literacy, environment education, the understanding of social and ecological reality. Textbooks develop also important pedagogical functions due to sequence and rhythm of the transmission of knowledge through, for instance, activities by which it is promoted and eva...

  7. Exploring reforms while learning to teach science: Facilitating exploration of theory-practice relationships in a teacher education study group

    Science.gov (United States)

    Foster, Jacob G.

    This dissertation inserts a new view into an old problem in teacher education. The study explores the theory-practice gap, the large distance between what preservice science teachers experience in schools, are able to enact, and are told they should hold themselves to in their practice. It does so by narrowing the focus of analysis to a secondary science study group and examining how the facilitator uses sociocultural constructivism to promote discussion. The analysis surfaces key communicative moves made by the facilitator and preservice teachers that yield fruitful discussion of theory-practice relationships. Additionally, the study's use of discourse analysis as a methodology and intertextuality as a conceptual framework opens new directions for applied sociolinguistic research and scholarship in science teacher education. Findings from the study focus on what was discussed and how explorations of theory-practice relationships were facilitated. Preservice teachers in the study group engaged in meaningful conversations about constructivist theory and its application to their students and teaching of science. They discussed many science education topics such as planning science lessons that actively engage students, assessment of content understanding, and management of content-based activities. Discussions of broader science education goals, including implementation of inquiry or development of collaborative communities, were not promoted. Examination of the facilitation illuminates a number of strategies found to be helpful in supporting these explorations. This study shows that facilitation can successfully support preservice teachers to construct understanding of social constructivist assumptions underlying the National Science Education Standards (NSES), as well as a few components of the Standards themselves. The focus on the underlying assumptions suggests that science teacher education should focus on these so that preservice teachers can build a strong

  8. Fermilab Friends for Science Education | About Us

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us About Us national leader in precollege science education. From the first Summer Institute for Science Teachers held year over 37,000 students, and 2,500 teachers participated in programs through the Education Office

  9. Preparing Future Secondary Computer Science Educators

    Science.gov (United States)

    Ajwa, Iyad

    2007-01-01

    Although nearly every college offers a major in computer science, many computer science teachers at the secondary level have received little formal training. This paper presents details of a project that could make a significant contribution to national efforts to improve computer science education by combining teacher education and professional…

  10. Emphasizing Morals, Values, Ethics, and Character Education in Science Education and Science Teaching

    Science.gov (United States)

    Chowdhury, Mohammad

    2016-01-01

    This article presents the rationale and arguments for the presence of morals, values, ethics and character education in science curriculum and science teaching. The author examines how rapid science and technological advancements and globalization are contributing to the complexities of social life and underpinning the importance of morals, values…

  11. Development of the promoting teacher attribution model for promoting science teachers' moral and ethical characteristics

    Science.gov (United States)

    Chanprathak, Anusorn; Worakham, Paisan; Suikraduang, Arun

    2018-01-01

    The promotion science teacher attribution model to develop the moral and ethical characteristics was to analyze, synthesis, and develop the guidelines of the scoping study into concepts, theories and research related about the moral and ethics of characteristically teachers from the resources, including research papers, research articles related research, and interviews with luminaries of 9 members. Using interviews and document analysis, data analysis, content analysis, and present an essay was built. The promoting attributes a teacher, moral principles, concepts and theories involved and guidance of a qualified were developed. The Multiple-Attribute Consensus Reaching (MACR) from 12 educational experts were checked the suitability and feasibility of the model, the possibility of the manual with the research instruments consisted of the promotion model attributes the moral and ethics teacher's characteristics were evaluated, to guide the promotion attributes' model forms were assessed, the first edition of the manual data analysis, information obtained from the evaluation of the suitability and feasibility analysis model and guide for the average were administered. The results have found that; the promoting moral teacher attribute data to their moral and ethical characteristics was divided into two groups, priests and scholars. In both groups, the promotion attributes, focusing on teacher's groups is moral in nature to modify the idea to a change of attitude within the organism. Students got down to real experience; an analysis and synthesis face learning environments that cause cognitive skills to act as a self-realization possibly. The promotion model, moral principles, including the importance of the activities, objectives and evaluation methods were attributed. These core concepts learning theory and social cognitive theory, and integrated learning experience were comprised in five stages and four processes, namely; the intended, memory storage process, the

  12. Building a Global Ocean Science Education Network

    Science.gov (United States)

    Scowcroft, G. A.; Tuddenham, P. T.; Pizziconi, R.

    2016-02-01

    It is imperative for ocean science education to be closely linked to ocean science research. This is especially important for research that addresses global concerns that cross national boundaries, including climate related issues. The results of research on these critical topics must find its way to the public, educators, and students of all ages around the globe. To facilitate this, opportunities are needed for ocean scientists and educators to convene and identify priorities and strategies for ocean science education. On June 26 and 27, 2015 the first Global Ocean Science Education (GOSE) Workshop was convened in the United States at the University of Rhode Island Graduate School of Oceanography. The workshop, sponsored by the Consortium for Ocean Science Exploration and Engagement (COSEE) and the College of Exploration, had over 75 participants representing 15 nations. The workshop addressed critical global ocean science topics, current ocean science research and education priorities, advanced communication technologies, and leveraging international ocean research technologies. In addition, panels discussed elementary, secondary, undergraduate, graduate, and public education across the ocean basins with emphasis on opportunities for international collaboration. Special presentation topics included advancements in tropical cyclone forecasting, collaborations among Pacific Islands, ocean science for coastal resiliency, and trans-Atlantic collaboration. This presentation will focus on workshop outcomes as well as activities for growing a global ocean science education network. A summary of the workshop report will also be provided. The dates and location for the 2016 GOES Workshop will be announced. See http://www.coexploration.net/gose/index.html

  13. Artificial Intelligence and Science Education.

    Science.gov (United States)

    Good, Ron

    1987-01-01

    Defines artificial intelligence (AI) in relation to intelligent computer-assisted instruction (ICAI) and science education. Provides a brief background of AI work, examples of expert systems, examples of ICAI work, and addresses problems facing AI workers that have implications for science education. Proposes a revised model of the Karplus/Renner…

  14. Leadership, Responsibility, and Reform in Science Education.

    Science.gov (United States)

    Bybee, Rodger W.

    1993-01-01

    Regards leadership as central to the success of the reform movement in science education. Defines leadership and introduces a model of leadership modified from the one developed by Edwin Locke and his associates. Provides an overview of the essential qualities of leadership occurring in science education. Discusses reforming science education and…

  15. Data Mining Tools in Science Education

    OpenAIRE

    Premysl Zaskodny

    2012-01-01

    The main principle of paper is Data Mining in Science Education (DMSE) as Problem Solving. The main goal of paper is consisting in Delimitation of Complex Data Mining Tool and Partial Data Mining Tool of DMSE. The procedure of paper is consisting of Data Preprocessing in Science Education, Data Processing in Science Education, Description of Curricular Process as Complex Data Mining Tool (CP-DMSE), Description of Analytical Synthetic Modeling as Partial Data Mining Tool (ASM-DMSE) and finally...

  16. Science Identity in Informal Education

    Science.gov (United States)

    Schon, Jennifer A.

    The national drive to increase the number of students pursuing Science Technology, Engineering, and Math (STEM) careers has brought science identity into focus for educators, with the need to determine what encourages students to pursue and persist in STEM careers. Science identity, the degree to which students think someone like them could be a scientist is a potential indicator of students pursuing and persisting in STEM related fields. Science identity, as defined by Carlone and Johnson (2007) consists of three constructs: competence, performance, and recognition. Students need to feel like they are good at science, can perform it well, and that others recognize them for these achievements in order to develop a science identity. These constructs can be bolstered by student visitation to informal education centers. Informal education centers, such as outdoor science schools, museums, and various learning centers can have a positive impact on how students view themselves as scientists by exposing them to novel and unique learning opportunities unavailable in their school. Specifically, the University of Idaho's McCall Outdoor Science School (MOSS) focuses on providing K-12 students with the opportunity to learn about science with a place-based, hands-on, inquiry-based curriculum that hopes to foster science identity development. To understand the constructs that lead to science identity formation and the impact the MOSS program has on science identity development, several questions were explored examining how students define the constructs and if the MOSS program impacted how they rate themselves within each construct. A mixed-method research approach was used consisting of focus group interviews with students and pre, post, one-month posttests for visiting students to look at change in science identity over time. Results from confirmatory factor analysis indicate that the instrument created is a good fit for examining science identity and the associated

  17. Fermilab Friends for Science Education | Contact Us

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Contact Us Science Education P.O Box 500, MS 777 Batavia, IL 60510-5011 (630) 840-3094 * fax: (630) 840-2500 E-mail : Membership Send all other communications to: Susan Dahl, President Fermilab Friends for Science Education Box

  18. Science initial teacher education and superdiversity: educating science teachers for a multi-religious and globalised science classroom

    Science.gov (United States)

    De Carvalho, Roussel

    2016-06-01

    Steven Vertovec (2006, 2007) has recently offered a re-interpretation of population diversity in large urban centres due to a considerable increase in immigration patterns in the UK. This complex scenario called superdiversity has been conceptualised to help illuminate significant interactions of variables such as religion, language, gender, age, nationality, labour market and population distribution on a larger scale. The interrelationships of these themes have fundamental implications in a variety of community environments, but especially within our schools. Today, London schools have over 300 languages being spoken by students, all of whom have diverse backgrounds, bringing with them a wealth of experience and, most critically, their own set of religious beliefs. At the same time, Science is a compulsory subject in England's national curriculum, where it requires teachers to deal with important scientific frameworks about the world; teaching about the origins of the universe, life on Earth, human evolution and other topics, which are often in conflict with students' religious views. In order to cope with this dynamic and thought-provoking environment, science initial teacher education (SITE)—especially those catering large urban centres—must evolve to equip science teachers with a meaningful understanding of how to handle a superdiverse science classroom, taking the discourse of inclusion beyond its formal boundaries. Thus, this original position paper addresses how the role of SITE may be re-conceptualised and re-framed in light of the immense challenges of superdiversity as well as how science teachers, as enactors of the science curriculum, must adapt to cater to these changes. This is also the first in a series of papers emerging from an empirical research project trying to capture science teacher educators' own views on religio-scientific issues and their positions on the place of these issues within science teacher education and the science classroom.

  19. Augmented Reality in Science Education

    DEFF Research Database (Denmark)

    Nielsen, Birgitte Lund; Brandt, Harald; Swensen, Hakon

    Augmented reality (AR) holds great promise as a learning tool. However, most extant studies in this field have focused on the technology itself. The poster presents findings from the first stage of the AR-sci project addressing the issue of applying AR for educational purposes. Benefits and chall......Augmented reality (AR) holds great promise as a learning tool. However, most extant studies in this field have focused on the technology itself. The poster presents findings from the first stage of the AR-sci project addressing the issue of applying AR for educational purposes. Benefits...... and challenges related to AR enhancing student learning in science in lower secondary school were identified by expert science teachers, ICT designers and science education researchers from four countries in a Delphi survey. Findings were condensed in a framework to categorize educational AR designs....

  20. General Atomics Sciences Education Foundation Outreach Programs

    Science.gov (United States)

    Winter, Patricia S.

    1997-11-01

    Scientific literacy for all students is a national goal. The General Atomics (GA) Foundation Outreach Program is committed to playing a major role in enhancing pre-college education in science, engineering and new technologies. GA has received wide recognition for its Sciences Education Program, a volunteer effort of GA employees and San Diego science teachers. GA teacher/scientist teams have developed inquiry-based education modules and associated workshops based on areas of core competency at GA: Fusion -- Energy of the Stars; Explorations in Materials Science; Portrait of an Atom; DNA Technology. [http://www.sci-ed-ga.org]. Workshops [teachers receive printed materials and laboratory kits for ``hands-on" modules] have been presented for 700+ teachers from 200+ area schools. Additional workshops include: University of Denver for Denver Public Schools; National Educators Workshop; Standard Experiments in Engineering Materials; Update '96 in Los Alamos; Newspapers in Education Workshop (LA Times); American Chemical Society Regional/National meetings, and California Science Teachers Association Conference. Other outreach includes High School Science Day, school partnerships, teacher and student mentoring and the San Diego Science Alliance [http://www.sdsa.org].

  1. Symposium 3 - Science Education “Leopoldo de Meis”: The Critical Importance of Science Education for Society

    Directory of Open Access Journals (Sweden)

    Bruce Albert

    2015-08-01

    Full Text Available Symposium 3 - Science Education “Leopoldo de Meis” Chair: Wagner Seixas da Silva, Universidade Federal do Rio de JaneiroAbstract:Three ambitious goals for science education:1. Enable all children to acquire the problem-solving, thinking, and communication skills of scientists – so that they can be productive and competitive in the new world economy.2. Generate a “scientific temper” for each nation, with scientifically trained people in many professions, ensuring the rationality and the tolerance essential for a democratic society.3. Help each nation generate new scientific knowledge and technology by casting the widest possible net for talent.My preferred strategy for the United States:1. Science education should have a much larger role in all school systems, but only if this science education is of a different kind than is experienced in most schools today.2. Making such a change will require a redefinition of what we mean by the term  “science education”.3. To create continually improving education systems, we will need much more collaborative, effective, and use-inspired education research - research that is focused on real school needs and that integrates the best school teachers into the work.4. Our best teachers need to have a much larger voice in helping to steer our national and state policies, as well as in our local school systems!

  2. Trends of Science Education Research: An Automatic Content Analysis

    Science.gov (United States)

    Chang, Yueh-Hsia; Chang, Chun-Yen; Tseng, Yuen-Hsien

    2010-01-01

    This study used scientometric methods to conduct an automatic content analysis on the development trends of science education research from the published articles in the four journals of "International Journal of Science Education, Journal of Research in Science Teaching, Research in Science Education, and Science Education" from 1990 to 2007. The…

  3. An Evaluation of the Science Education Component of the Cross River State Science and Technical Education Project

    Science.gov (United States)

    Ekuri, Emmanuel Etta

    2012-01-01

    The Cross River State Science and Technical Education Project was introduced in 1992 by edict number 9 of 20 December 1991, "Cross River State Science and Technical Education Board Edit, 20 December, 1991", with the aim of improving the quality of science teaching and learning in the state. As the success of the project depends…

  4. Constructivism in Science and Science Education: A Philosophical Critique

    Science.gov (United States)

    Nola, Robert

    This paper argues that constructivist science education works with an unsatisfactory account of knowledge which affects both its account of the nature of science and of science education. The paper begins with a brief survey of realism and anti-realism in science and the varieties of constructivism that can be found. In the second section the important conception of knowledge and teaching that Plato develops in the Meno is contrasted with constructivism. The section ends with an account of the contribution that Vico (as understood by constructivists), Kant and Piaget have made to constructivist doctrines. Section three is devoted to a critique of the theory of knowledge and the anti-realism of von Glaserfeld. The final section considers the connection, or lack of it, between the constructivist view of science and knowledge and the teaching of science.

  5. A philosophical examination of Mead's pragmatist constructivism as a referent for adult science education

    Science.gov (United States)

    Furbish, Dean Russel

    The purpose of this study is to examine pragmatist constructivism as a science education referent for adult learners. Specifically, this study seeks to determine whether George Herbert Mead's doctrine, which conflates pragmatist learning theory and philosophy of natural science, might facilitate (a) scientific concept acquisition, (b) learning scientific methods, and (c) preparation of learners for careers in science and science-related areas. A philosophical examination of Mead's doctrine in light of these three criteria has determined that pragmatist constructivism is not a viable science education referent for adult learners. Mead's pragmatist constructivism does not portray scientific knowledge or scientific methods as they are understood by practicing scientists themselves, that is, according to scientific realism. Thus, employment of pragmatist constructivism does not adequately prepare future practitioners for careers in science-related areas. Mead's metaphysics does not allow him to commit to the existence of the unobservable objects of science such as molecular cellulose or mosquito-borne malarial parasites. Mead's anti-realist metaphysics also affects his conception of scientific methods. Because Mead does not commit existentially to the unobservable objects of realist science, Mead's science does not seek to determine what causal role if any the hypothetical objects that scientists routinely posit while theorizing might play in observable phenomena. Instead, constructivist pragmatism promotes subjective epistemology and instrumental methods. The implication for learning science is that students are encouraged to derive scientific concepts based on a combination of personal experience and personal meaningfulness. Contrary to pragmatist constructivism, however, scientific concepts do not arise inductively from subjective experience driven by personal interests. The broader implication of this study for adult education is that the philosophically laden

  6. Science in General Education

    Science.gov (United States)

    Read, Andrew F.

    2013-01-01

    General education must develop in students an appreciation of the power of science, how it works, why it is an effective knowledge generation tool, and what it can deliver. Knowing what science has discovered is desirable but less important.

  7. Reforming Science Education: Part I. The Search for a Philosophy of Science Education

    Science.gov (United States)

    Schulz, Roland M.

    2009-04-01

    The call for reforms in science education has been ongoing for a century, with new movements and approaches continuously reshaping the identity and values of the discipline. The HPS movement has an equally long history and taken part in the debates defining its purpose and revising curriculum. Its limited success, however, is due not only to competition with alternative visions and paradigms (e.g. STS, multi-culturalism, constructivism, traditionalism) which deadlock implementation, and which have led to conflicting meanings of scientific literacy, but the inability to rise above the debate. At issue is a fundamental problem plaguing science education at the school level, one it shares with education in general. It is my contention that it requires a guiding “metatheory” of education that can appropriately distance itself from the dual dependencies of metatheories in psychology and the demands of socialization—especially as articulated in most common conceptions of scientific literacy tied to citizenship. I offer as a suggestion Egan’s cultural-linguistic theory as a metatheory to help resolve the impasse. I hope to make reformers familiar with his important ideas in general and more specifically, to show how they can complement HPS rationales and reinforce the work of those researchers who have emphasized the value of narrative in learning science. This will be elaborated in Part II of a supplemental paper to the present one. As a prerequisite to presenting Egan’s metatheory I first raise the issue of the need for a conceptual shift back to philosophy of education within the discipline, and thereto, on developing and demarcating true educational theories (essentially neglected since Hirst). In the same vein it is suggested a new research field should be opened with the express purpose of developing a discipline-specific “philosophy of science education” (largely neglected since Dewey) which could in addition serve to reinforce science education

  8. What Is "Agency"? Perspectives in Science Education Research

    Science.gov (United States)

    Arnold, Jenny; Clarke, David John

    2014-01-01

    The contemporary interest in researching student agency in science education reflects concerns about the relevance of schooling and a shift in science education towards understanding learning in science as a complex social activity. The purpose of this article is to identify problems confronting the science education community in the development…

  9. Promoting Continuing Education Programs.

    Science.gov (United States)

    Hendrickson, Gayle A.

    This handbook is intended for use by institutions in marketing their continuing education programs. A section on "Devising Your Strategy" looks at identifying a target audience, determining the marketing approach, and developing a marketing plan and promotional techniques. A discussion of media options looks at the advantages and…

  10. An integrated model of decision-making in health contexts: the role of science education in health education

    Science.gov (United States)

    Arnold, Julia C.

    2018-03-01

    Health education is to foster health literacy, informed decision-making and to promote health behaviour. To date, there are several models that seek to explain health behaviour (e.g. the Theory of Planned Behaviour or the Health Belief Model). These models include motivational factors (expectancies and values) that play a role in decision-making in health contexts. In this theoretical paper, it is argued that none of these models makes consequent use of expectancy-value pairs. It is further argued that in order to make these models fruitful for science education and for informed decision-making, models should systematically incorporate knowledge as part of the decision-making process. To fill this gap, this theoretical paper introduces The Integrated Model of Decision-Making in Health Contexts. This model includes three types of knowledge (system health knowledge, action-related health knowledge and effectiveness health knowledge) as influencing factors for motivational factors (perceived health threat, attitude towards health action, attitude towards health outcome and subjective norm) that are formed of expectancy-value pairs and lead to decisions. The model's potential for health education in science education as well as research implications is discussed.

  11. Health Promotion Education in India: Present Landscape and Future Vistas

    Science.gov (United States)

    Pati, Sanghamitra; Sharma, Kavya; Zodpey, Sanjay; Chauhan, Kavita; Dobe, Madhumita

    2012-01-01

    ‘Health promotion is the process of enabling people to increase control over and to improve their health’. This stream of public health is emerging as a critical domain within the realm of disease prevention. Over the last two decades, the curative model of health care has begun a subtle shift towards a participatory model of health promotion emphasizing upon practice of healthy lifestyles and creating healthy communities. Health promotion encompasses five key strategies with health communication and education as its cornerstones. Present study is an attempt to explore the current situation of health promotion education in India with an aim to provide a background for capacity building in health promotion. A systematic predefined method was adopted to collect and compile information on existing academic programs pertaining to health promotion and health education/communication. Results of the study reveal that currently health promotion education in India is fragmented and not uniform across institutes. It is yet to be recognized as a critical domain of public health education. Mostly teaching of health promotion is limited to health education and communication. There is a need for designing programmes for short-term and long-term capacity building, with focus on innovative methods and approaches. Public health institutes and associations could play a proactive role in designing and imparting academic programs on health promotion. Enhancing alliances with various institutes involved in health promotion activities and networking among public health and medical institutes as well as health services delivery systems would be more productive. PMID:22980352

  12. Increasing Underrepresented Students in Geophysics and Planetary Science Through the Educational Internship in Physical Sciences (EIPS)

    Science.gov (United States)

    Terrazas, S.; Olgin, J. G.; Enriquez, F.

    2017-12-01

    The number of underrepresented minorities pursuing STEM fields, specifically in the sciences, has declined in recent times. In response, the Educational Internship in Physical Sciences (EIPS), an undergraduate research internship program in collaboration with The University of Texas at El Paso (UTEP) Geological Sciences Department and El Paso Community College (EPCC), was created; providing a mentoring environment so that students can actively engage in science projects with professionals in their field so as to gain the maximum benefits in an academic setting. This past year, interns participated in planetary themed projects which exposed them to the basics of planetary geology, and worked on projects dealing with introductory digital image processing and synthesized data on two planetary bodies; Pluto and Enceladus respectively. Interns harnessed and built on what they have learned through these projects, and directly applied it in an academic environment in solar system astronomy classes at EPCC. Since the majority of interns are transfer students or alums from EPCC, they give a unique perspective and dimension of interaction; giving them an opportunity to personally guide and encourage current students there on available STEM opportunities. The goal was to have interns gain experience in planetary geology investigations and networking with professionals in the field; further promoting their interests and honing their abilities for future endeavors in planetary science. The efficacy of these activities toward getting interns to pursue STEM careers, enhance their education in planetary science, and teaching key concepts in planetary geophysics are demonstrated in this presentation.

  13. [Re]considering queer theories and science education

    Science.gov (United States)

    Fifield, Steve; Letts, Will

    2014-06-01

    We take Mattias Lundin's Inviting queer ideas into the science classroom: studying sexual education from a queer perspective as a point of departure to explore some enduring issues related to the use of queer theories to interrogate science education and its practices. We consider the uneasy, polygamous relationship between gay and lesbian studies and queer theories; the border surveillance that characterizes so much of science [education]; the alluring call of binaries and binary thinking; the `all' within the catchcry `science for all'; and the need to better engage the fullness of science and the curriculum, in addition to noting silences around diverse sexes, sexualities, and desires. We catalogue some of the challenges that persist in this work, and offer thoughts about how to work with and against them to enact a more just and compelling science education.

  14. Response to science education reforms: The case of three science education doctoral programs in the United States

    Science.gov (United States)

    Gwekwerere, Yovita Netsai

    Doctoral programs play a significant role in preparing future leaders. Science Education doctoral programs play an even more significant role preparing leaders in a field that is critical to maintaining national viability in the face of global competition. The current science education reforms have the goal of achieving science literacy for all students and for this national goal to be achieved; we need strong leadership in the field of science education. This qualitative study investigated how doctoral programs are preparing their graduates for leadership in supporting teachers to achieve the national goal of science literacy for all. A case study design was used to investigate how science education faculty interpreted the national reform goal of science literacy for all and how they reformed their doctoral courses and research programs to address this goal. Faculty, graduate students and recent graduates of three science education doctoral programs participated in the study. Data collection took place through surveys, interviews and analysis of course documents. Two faculty members, three doctoral candidates and three recent graduates were interviewed from each of the programs. Data analysis involved an interpretive approach. The National Research Council Framework for Investigating Influence of the National Standards on student learning (2002) was used to analyze interview data. Findings show that the current reforms occupy a significant part of the doctoral coursework and research in these three science education doctoral programs. The extent to which the reforms are incorporated in the courses and the way they are addressed depends on how the faculty members interpret the reforms and what they consider to be important in achieving the goal of science literacy for all. Whereas some faculty members take a simplistic critical view of the reform goals as a call to achieve excellence in science teaching; others take a more complex critical view where they question

  15. The Feasibility of Educating Trainee Science Teachers in Issues of Science and Religion

    Science.gov (United States)

    Poole, Michael

    2016-01-01

    This article reflects on Roussel De Carvalho's paper "Science initial teacher education and superdiversity: educating science teachers for a multi-religious and globalized science classroom" (EJ1102211). It then offers suggestions for making some of the ambitious goals of the science-and-religion components of the science initial teacher…

  16. Integrating Free and Open Source Solutions into Geospatial Science Education

    Directory of Open Access Journals (Sweden)

    Vaclav Petras

    2015-06-01

    Full Text Available While free and open source software becomes increasingly important in geospatial research and industry, open science perspectives are generally less reflected in universities’ educational programs. We present an example of how free and open source software can be incorporated into geospatial education to promote open and reproducible science. Since 2008 graduate students at North Carolina State University have the opportunity to take a course on geospatial modeling and analysis that is taught with both proprietary and free and open source software. In this course, students perform geospatial tasks simultaneously in the proprietary package ArcGIS and the free and open source package GRASS GIS. By ensuring that students learn to distinguish between geospatial concepts and software specifics, students become more flexible and stronger spatial thinkers when choosing solutions for their independent work in the future. We also discuss ways to continually update and improve our publicly available teaching materials for reuse by teachers, self-learners and other members of the GIS community. Only when free and open source software is fully integrated into geospatial education, we will be able to encourage a culture of openness and, thus, enable greater reproducibility in research and development applications.

  17. Qualitative exploration of centralities in municipal science education networks

    DEFF Research Database (Denmark)

    von der Fehr, Ane; Sølberg, Jan

    2016-01-01

    This article examines the social nature of educational change by conducting a social network analysis of social networks involving stakeholders of science education from teachers to political stakeholders. Social networks that comprise supportive structures for development of science education ar...... of science education, especially if they are aware of their own centrality and are able to use their position intentionally for the benefit of science education.......This article examines the social nature of educational change by conducting a social network analysis of social networks involving stakeholders of science education from teachers to political stakeholders. Social networks that comprise supportive structures for development of science education...... are diverse and in order to understand how municipal stakeholders may support such development, we explored four different municipal science education networks (MSE networks) using three different measures of centrality. The centrality measures differed in terms of what kind of stakeholder functions...

  18. A Guide for Understanding Health Education and Promotion Programs.

    Science.gov (United States)

    Kim, Richard W; Nahar, Vinayak K

    2018-03-01

    Planning, Implementing & Evaluating Health Promotion Programs: A Primer is a versatile and comprehensive resource on the theoretical and practical underpinnings of successful health promotion programs. The requirements for effective health promotion program development are presented with frequent use of practical planning examples, pedagogical devices, and expert rationale. Ideal for undergraduate and graduate students in health education, promotion, and planning courses, this 15-chapter textbook is organized in a manner that specifically addresses the responsibilities and competencies required of health education specialists as published in the Health Education Specialist Practice Analysis of 2015. The authors of this textbook are leaders in the field and provide readers with the skills necessary to carry out the full process of health promotion program execution, while also offering direct preparation for CHES and MCHES licensing exams.

  19. Scientism and Scientific Thinking. A Note on Science Education

    Science.gov (United States)

    Gasparatou, Renia

    2017-11-01

    The move from respecting science to scientism, i.e., the idealization of science and scientific method, is simple: We go from acknowledging the sciences as fruitful human activities to oversimplifying the ways they work, and accepting a fuzzy belief that Science and Scientific Method, will give us a direct pathway to the true making of the world, all included. The idealization of science is partly the reason why we feel we need to impose the so-called scientific terminologies and methodologies to all aspects of our lives, education too. Under this rationale, educational policies today prioritize science, not only in curriculum design, but also as a method for educational practice. One might expect that, under the scientistic rationale, science education would thrive. Contrariwise, I will argue that scientism disallows science education to give an accurate image of the sciences. More importantly, I suggest that scientism prevents one of science education's most crucial goals: help students think. Many of my arguments will borrow the findings and insights of science education research. In the last part of this paper, I will turn to some of the most influential science education research proposals and comment on their limits. If I am right, and science education today does not satisfy our most important reasons for teaching science, perhaps we should change not just our teaching strategies, but also our scientistic rationale. But that may be a difficult task.

  20. Scalable Game Design: A Strategy to Bring Systemic Computer Science Education to Schools through Game Design and Simulation Creation

    Science.gov (United States)

    Repenning, Alexander; Webb, David C.; Koh, Kyu Han; Nickerson, Hilarie; Miller, Susan B.; Brand, Catharine; Her Many Horses, Ian; Basawapatna, Ashok; Gluck, Fred; Grover, Ryan; Gutierrez, Kris; Repenning, Nadia

    2015-01-01

    An educated citizenry that participates in and contributes to science technology engineering and mathematics innovation in the 21st century will require broad literacy and skills in computer science (CS). School systems will need to give increased attention to opportunities for students to engage in computational thinking and ways to promote a…

  1. Institute for Scientific and Educational Technology (ISET)-Education, Research and Training Programs in Engineering and Sciences

    Science.gov (United States)

    Tiwari, S. N. (Principal Investigator); Massenberg, Samuel E. (Technical Monitor)

    2002-01-01

    The 'Institute for Scientific and Educational Technology' has been established to provide a mechanism through which universities and other research organizations may cooperate with one another and with different government agencies and industrial organizations to further and promote research, education, and training programs in science, engineering, and related fields. This effort has been undertaken consistent with the national vision to 'promote excellence in America s educational system through enhancing and expanding scientific and technological competence.' The specific programs are directed in promoting and achieving excellence for individuals at all levels (elementary and secondary schools, undergraduate and graduate education, and postdoctoral and faculty research). The program is consistent with the existing activities of the Institute for Computational and Applied Mechanics (ICAM) and the American Society for Engineering Education (ASEE) at NASA Langley Research Center (LaRC). The efforts will be directed to embark on other research, education, and training activities in various fields of engineering, scientific, and educational technologies. The specific objectives of the present program may be outlined briefly as follows: 1) Cooperate in the various research, education, and technology programs of the Office of Education at LaRC. 2) Develop procedures for interactions between precollege, college, and graduate students, and between faculty and students at all levels. 3) Direct efforts to increase the participation by women and minorities in educational programs at all levels. 4) Enhance existing activities of ICAM and ASEE in education, research, and training of graduate students and faculty. 5) Invite distinguished scholars as appropriate and consistent with ISET goals to spend their summers and/or sabbaticals at NASA Langley andor ODU and interact with different researchers and graduate students. Perform research and administrative activities as needed

  2. Science and the Ideals of Liberal Education

    Science.gov (United States)

    Carson, Robert N.

    This article examines the influence of mathematics and science on the formation of culture. It then examines several definitions of liberal education, including the notion that languages and fields of study constitute the substrate of articulate intelligence. Finally, it examines the linkages between science, scientific culture, liberal education, and democracy, and proposes that science cannot be taught merely as a body of facts and theories, but must be presented to students as integral with cultural studies. The use of a contextualist approach to science education is recommended.

  3. AITI and GELATI - Initiatives to promote education and training for the next generation of educators and scientists during the IPY 2007/08 and beyond

    Science.gov (United States)

    Vogel, S. W.; Bouchard, M.; Das, S.; Gillermann, J.; Greve, R.; Matsuoka, K.; Pasotti, J.; Tweedie, C.

    2005-05-01

    The fourth International Polar Year (IPY) in 2007/08 provides a unique opportunity to enhance international collaboration in research and education. Here we present an IPY-teaching initiative (AITI), which proposes to develop an interdisciplinary international short course series promoting and fostering education and training of the next generation(s) of scientists and educators interested in natural and social sciences related to Polar Regions; a short course series (GELATI) focusing on the impact of the cryosphere on the Earth system. The main goals of the short course series are to: a) provide education and training for the next generation of graduate students, science teachers, researchers in science related to Polar Regions; b) provide training for junior faculty c) integrate research and education; d) create awareness for Polar Regions related questions in class-rooms and beyond; e) create international partnerships in education and training; f) promote multidisciplinary thinking; g) increase gender diversity in science and teaching; h) encourage minority participation. To achieve these goals it is intended to develop a curriculum of specialized and interdisciplinary courses considering various aspects of science and scientific activities, which study, or are concerned with processes/developments in Polar Regions. Due to the vast dimensions and distribution of Polar Regions across international boundaries as well as the complexity of environmental studies in Polar Regions these courses will internationally pool students and instructors. Pooling of experts and students internationally will not only ensure highest standards but also foster international partnership. To allow the integration of research and teaching and to provide the best possible study environment the up to two to three weeklong, courses will be held at international field stations or will be incorporated into large research projects. To ensure training of the next generation of

  4. The making of a bilingual science educator: An autobiographical study

    Science.gov (United States)

    Chacon, Hugo Alejandro

    This qualitative study explores the journey of a Latino educator in becoming a bilingual high school science teacher and university professor. It focuses on discovering how the practice of teaching and learning is shaped through social, psychological, and cultural factors. Through the use of an autobiographical method known as currere, the researcher recounts personal and educational experiences that address important issues in education related to language, science, culture, and social class through the perspective of one doing the work. The study reviews the literature on autobiographical forms of research in the field of education and suggests how autobiography in education, an emerging genre, holds the promise for creating new meanings of the self while at the same time attempts to develop a theory of autobiography that acknowledges the importance of people of color and other marginalized groups. Data collected include 22 hours of audiotaped recordings, conversations, and educational artifacts including notes from innovative classroom projects, lesson plans, conference presentations, computer files, graduate coursework, classroom videotaping, university course evaluations, and department memos. Findings of this study revealed that: (a) the process of becoming a transformative educator involves critical self-reflection on one's cultural/ethnic identity and linguistic heritage; (b) the importance of self-reflection on one's teaching is a critical component in moving towards a more culturally and linguistically responsive curriculum; (c) the bilingual educator can achieve a greater understanding of the important role in the maintenance, implementation, and promotion of minority language education through a reflective practice; and (d) the development of the underrepresented voice in education and the awakening to one's personal and philosophical worldviews is as important as the preparation one receives in becoming a bilingual teacher.

  5. The Globalization of Science Education

    Science.gov (United States)

    Deboer, George

    2012-02-01

    Standards-based science education, with its emphasis on clearly stated goals, performance monitoring, and accountability, is rapidly becoming a key part of how science education is being viewed around the world. Standards-based testing within countries is being used to determine the effectiveness of a country's educational system, and international testing programs such as PISA and TIMSS enable countries to compare their students to a common standard and to each other. The raising of standards and the competition among countries is driven in part by a belief that economic success depends on a citizenry that is knowledgeable about science and technology. In this talk, I consider the question of whether it is prudent to begin conversations about what an international standards document for global citizenship in science education might look like. I examine current practices to show the areas of international agreement and the significant differences that still exist, and I conclude with a recommendation that such conversations should begin, with the goal of laying out the knowledge and competencies that international citizens should have that also gives space to individual countries to pursue goals that are unique to their own setting.

  6. Action research in gender issues in science education: Towards an understanding of group work with science teachers

    Science.gov (United States)

    Nyhof-Young, Joyce Marion

    Action research is emerging as a promising means of promoting individual and societal change in the context of university programmes in teacher education. However, significant gaps exist in the literature regarding the use of action research groups for the education of science teachers. Therefore, an action research group, dealing with gender issues in science education, was established within the context of a graduate course in action research at OISE. For reasons outlined in the thesis, action research was deemed an especially appropriate means for addressing issues of gender. The group met 14 times from September 1992 until May 1993 and consisted of myself and five other science teachers from the Toronto area. Two of us were in the primary panel, two in the intermediate panel, and two in the tertiary panel. Five teachers were female. One was male. The experiences of the group form the basis of this study. A methodology of participant observation supported by interviews, classroom visits, journals, group feedback and participant portfolios provides a means of examining experiences from the perspective of the participants in the group. The case study investigates the nature of the support and learning opportunities that the action research group provided for science teachers engaged in curiculum and professional development in the realm of gender issues in science education, and details the development of individuals, the whole group and myself (as group worker, researcher and participant) over the life of the project. The action research group became a resource for science teachers by providing most participants with: A place to personalize learning and research; a place for systematic reflection and research; a forum for discussion; a source of personal/professional support; a source of friendship; and a place to break down isolation and build self-confidence. This study clarifies important relational and political issues that impinge on action research in

  7. Taking Teacher Education to Task: Exploring the Role of Faculty Education in Promoting Values and Moral Education of Task-Based Language Teaching

    Directory of Open Access Journals (Sweden)

    Dr. Gabriel C. Delariarte

    2014-02-01

    Full Text Available - This study aimed to determine the taking teacher education to task: exploring the role of teacher education in promoting values and moral education of task-based language teaching in the college of education of West Visayas State University Calinog-Campus for the school year 2012-2013. Descriptive research method was utilized in the study. The findings revealed that the respondents perceived highly observable Teachers’ role in promoting values and moral education of task-based language teaching; the entire group of respondents has perceived highly observable Teachers’ role in promoting values and moral education of task-based language teaching; both male and female respondent have perceived a highly observable Teachers’ role in promoting values and moral education of task-based language teaching; all age brackets have perceived a highly observable Teachers’ role in promoting values and moral education of task-based language teaching except 19 to 20 brackets that perceived very highly observable Teachers’ role in promoting values and moral education of taskbased language teaching. Finally, there is no significant difference in the perceived teacher’s role in promoting values and moral education of task-based language teaching when classified as to sex and age.

  8. Current Status of Regulatory Science Education in Faculties of Pharmaceutical Science in Japan.

    Science.gov (United States)

    Tohkin, Masahiro

    2017-01-01

    I introduce the current pharmaceutical education system in Japan, focusing on regulatory science. University schools or faculties of pharmaceutical science in Japan offer two courses: a six-year course for pharmacists and a four-year course for scientists and technicians. Students in the six-year pharmaceutical course receive training in hospitals and pharmacies during their fifth year, and those in the four-year life science course start research activities during their third year. The current model core curriculum for pharmaceutical education requires them to "explain the necessity and significance of regulatory science" as a specific behavior object. This means that pharmacists should understand the significance of "regulatory science", which will lead to the proper use of pharmaceuticals in clinical practice. Most regulatory science laboratories are in the university schools or faculties of pharmaceutical sciences; however, there are too few to conduct regulatory science education. There are many problems in regulatory science education, and I hope that those problems will be resolved not only by university-based regulatory science researchers but also by those from the pharmaceutical industry and regulatory authorities.

  9. Science Instructors' Perceptions of the Risks of Biotechnology: Implications for Science Education

    Science.gov (United States)

    Gardner, Grant Ean; Jones, M. Gail

    2011-01-01

    Developing scientifically literate students who understand the socially contextualized nature of science and technology is a national focus of science education reform. Science educators' perceptions of risks and benefits of new technologies (such as biotechnology) may shape their instructional approaches. This study examined the perceived risk of…

  10. Imaginative science education the central role of imagination in science education

    CERN Document Server

    Hadzigeorgiou, Yannis

    2016-01-01

    This book is about imaginative approaches to teaching and learning school science. Its central premise is that science learning should reflect the nature of science, and therefore be approached as an imaginative/creative activity. As such, the book can be seen as an original contribution of ideas relating to imagination and creativity in science education. The approaches discussed in the book are storytelling, the experience of wonder, the development of ‘romantic understanding’, and creative science, including science through visual art, poetry and dramatization. However, given the perennial problem of how to engage students (of all ages) in science, the notion of ‘aesthetic experience’, and hence the possibility for students to have more holistic and fulfilling learning experiences through the aforementioned imaginative approaches, is also discussed. Each chapter provides an in-depth discussion of the theoretical background of a specific imaginative approach (e.g., storytelling, ‘wonder-full’ s...

  11. Promoting entrepreneurship education in Nigerian universities ...

    African Journals Online (AJOL)

    The purpose of the study is to review entrepreneurship education in China and to present a succinct profile of contributions of entrepreneurship education in China colleges since its official introduction in the 1990's. The study used a comparative approach to explore four identified models used in promoting entrepreneurial ...

  12. On the way to a philosophy of science education

    Science.gov (United States)

    Schulz, Roland M.

    This Thesis argues the case that a philosophy of science education is required for improving science education as a research field as well as curriculum and teacher pedagogy. It seeks to re-think science education as an educational endeavor by examining why past reform efforts have been only partially successful, including why the fundamental goal of achieving scientific literacy after several "reform waves" has proven to be so elusive. The identity of such a philosophy is first defined in relation to the fields of philosophy, philosophy of science, and philosophy of education. Considering science education as a research discipline it is emphasized a new field should be broached with the express purpose of developing a discipline-specific "philosophy of science education" (largely neglected since Dewey). A conceptual shift towards the philosophy of education. is needed, thereto, on developing and demarcating true educational theories which could in addition serve to reinforce science education's growing sense of academic autonomy and independence from socio-economic demands. Two educational metatheories are contrasted, those of Kieran Egan and the Northern European Bildung tradition, to illustrate the task of such a philosophy. Egan's cultural-linguistic metatheory is presented for two primary purposes: it is offered as a possible solution to the deadlock of the science literacy conceptions within the discipline; regarding practice, examples are provided how it can better guide the instructional practice of teachers, specifically how it reinforces the work of other researchers in the History and Philosophy of Science (HPS) reform movement who value narrative in learning science. Considering curriculum and instruction, a philosophy of science education is conceptualized as a "second order" reflective capacity of the teacher. This notion is aligned with Shulman's idea of Pedagogical Content Knowledge. It is argued that for educators the nature of science learning

  13. Can a Spanish science education journal become international? the case of Enseñanza de las Ciencias

    Science.gov (United States)

    Espinet, Mariona; Izquierdo, Mercè; Garcia-Pujol, Clara

    2015-12-01

    In this paper we discuss the case of the science education research journal Enseñanza de las Ciencias (EC) around the issue of its internationalization and the consequences this process has had and is still having on the use and preservation of different languages and more specifically the Castilian (Spanish) language. We first frame the concept of globalization and internationalization, and identify three important dimensions involved in the process of internationalization of EC such as language use, actors involved and resources available. Secondly, we address the historical evolution of EC along three phases of internationalization. In each phase we discuss the tensions experienced in relevant internationalization dimensions focusing particularly on the use of languages. We conclude by advocating a plurilingual and multicultural model for a science education research journal as an alternative to the hegemony of international English written journals. In doing so we want to continue the conversation on the role that local and national science education research journals have in promoting science education around the world.

  14. Science education policy for emergency, conflict, and post-conflict: An analysis of trends and implications for the science education program in Uganda

    Science.gov (United States)

    Udongo, Betty Pacutho

    This study analyzes the impact of armed conflicts on the development of education policy and particularly science education program in Uganda. Since independence from the British colonial rule, Uganda has experienced a series of armed conflicts, with the most devastating being the 21 years of conflict in Northern Uganda. The research study was guided by the following questions: (1) What is the level of government funding towards improving science education program in Uganda? (2) Have recent initiatives, such as free Primary and Secondary education, compulsory science, and 75% sponsorship for science-based courses, had a measurable impact on the proportion of students from the conflict-affected regions who enter tertiary institutions to pursue science and technology programs? (3) To what extent do the Ugandan Education Policy and, in particular, the Science Education Policy effectively address the educational needs of students affected by armed conflicts? The study employed a mixed method design where both quantitative and qualitative data were collected and analyzed. Quantitative data were obtained from a comprehensive search of policy documents and content analysis of literature on education policy, science education programs, and impact of conflicts on educational delivery. Qualitative data were obtained from surveys and interviews distributed to policy makers, central government and the local government officials, teachers, and students from the war-ravaged Northern Uganda. Analysis of policy documents and respondents' views revealed that Uganda does not have a science education policy, and the present education policy does not fully address the educational needs of students studying in conflict-affected regions. It was further observed that fewer students from the conflict-affected regions qualify for government scholarship to study science courses in higher institutions of learning. The study recommended the following policy interventions: (a) affirmative

  15. Inspiring careers in STEM and healthcare fields through medical simulation embedded in high school science education.

    Science.gov (United States)

    Berk, Louis J; Muret-Wagstaff, Sharon L; Goyal, Riya; Joyal, Julie A; Gordon, James A; Faux, Russell; Oriol, Nancy E

    2014-09-01

    The most effective ways to promote learning and inspire careers related to science, technology, engineering, and mathematics (STEM) remain elusive. To address this gap, we reviewed the literature and designed and implemented a high-fidelity, medical simulation-based Harvard Medical School MEDscience course, which was integrated into high school science classes through collaboration between medical school and K-12 faculty. The design was based largely on the literature on concepts and mechanisms of self-efficacy. A structured telephone survey was conducted with 30 program alumni from the inaugural school who were no longer in high school. Near-term effects, enduring effects, contextual considerations, and diffusion and dissemination were queried. Students reported high incoming attitudes toward STEM education and careers, and these attitudes showed before versus after gains (P science or healthcare-related career to the program. Additionally, 63% subsequently took additional science or health courses, 73% participated in a job or educational experience that was science related during high school, and 97% went on to college. Four of every five program graduates cited a health-related college major, and 83% offered their strongest recommendation of the program to others. Further study and evaluation of simulation-based experiences that capitalize on informal, naturalistic learning and promote self-efficacy are warranted. Copyright © 2014 The American Physiological Society.

  16. Promoting seismology education through collaboration between university research scientists and school teachers

    Science.gov (United States)

    Brunt, M. R.; Ellins, K. K.; Boyd, D.; Mote, A. S.; Pulliam, J.; Frohlich, C. A.

    2012-12-01

    Participation in the NSF-sponsored Texas Earth and Space Science (TXESS) Revolution teacher professional development project paved the way for several teachers to receive educational seismometers and join the IRIS Seismograph in Schools program. This, in turn, has led to secondary school teachers working with university seismologists on research projects. Examples are the NSF-EarthScope SIEDCAR (Seismic Investigation of Edge Driven Convection Associated with the Rio Grande Rift) project; field studies to compile felt-reports for Texas earthquakes, some which may have been induced by human activities; and a seismic study of the Texas Gulf Coast to investigate ocean-continent transition processes along a passive margin. Such collaborations are mutually beneficial in nature. They help scientists to accomplish their research objectives, involve teachers and their students in the authentic, inquiry-based science, promote public awareness of such projects, and open the doors to advancement opportunities for those teachers involved. In some cases, bringing together research scientists and teachers results in collaborations that produce publishable research. In order to effectively integrate seismology research into 7-12 grade education, one of us (Brunt) established the Eagle Pass Junior High Seismology Team in connection with IRIS Seismograph in Schools, station EPTX (AS-1 seismograph), to teach students about earthquakes using authentic real-time data. The concept has sparked interest among other secondary teachers, leading to the creation of two similarly organized seismology teams: WPTX (Boyd, Williams Preparatory School, Dallas) and THTX (Mote, Ann Richards School for Young Women Leaders, Austin). Although the educational seismometers are basic instruments, they are effective educational tools. Seismographs in schools offer students opportunities to learn how earthquakes are recorded and how modern seismometers work, to collect and interpret seismic data, and to

  17. Special Education Teachers' Nature of Science Instructional Experiences

    Science.gov (United States)

    Mulvey, Bridget K.; Chiu, Jennifer L.; Ghosh, Rajlakshmi; Bell, Randy L.

    2016-01-01

    Special education teachers provide critical science instruction to students. However, little research investigates special education teacher beliefs and practices around science in general or the nature of science and inquiry in particular. This investigation is a cross-case analysis of four elementary special education teachers' initial…

  18. Dealing with the Ambiguities of Science Inquiry

    Science.gov (United States)

    Tan, Yuen Sze Michelle; Caleon, Imelda Santos

    2016-01-01

    The current vision of science education in myriad educational contexts encourages students to learn through the process of science inquiry. Science inquiry has been used to promote conceptual learning and engage learners in an active process of meaning-making and investigation to understand the world around them. The science inquiry process…

  19. Science Education and Public Outreach Forums (SEPOF): Providing Coordination and Support for NASA's Science Mission Directorate Education and Outreach Programs

    Science.gov (United States)

    Mendez, B. J.; Smith, D.; Shipp, S. S.; Schwerin, T. G.; Stockman, S. A.; Cooper, L. P.; Peticolas, L. M.

    2009-12-01

    NASA is working with four newly-formed Science Education and Public Outreach Forums (SEPOFs) to increase the overall coherence of the Science Mission Directorate (SMD) Education and Public Outreach (E/PO) program. SEPOFs support the astrophysics, heliophysics, planetary and Earth science divisions of NASA SMD in three core areas: * E/PO Community Engagement and Development * E/PO Product and Project Activity Analysis * Science Education and Public Outreach Forum Coordination Committee Service. SEPOFs are collaborating with NASA and external science and education and outreach communities in E/PO on multiple levels ranging from the mission and non-mission E/PO project activity managers, project activity partners, and scientists and researchers, to front line agents such as naturalists/interpreters, teachers, and higher education faculty, to high level agents such as leadership at state education offices, local schools, higher education institutions, and professional societies. The overall goal for the SEPOFs is increased awareness, knowledge, and understanding of scientists, researchers, engineers, technologists, educators, product developers, and dissemination agents of best practices, existing NASA resources, and community expertise applicable to E/PO. By coordinating and supporting the NASA E/PO Community, the NASA/SEPOF partnerships will lead to more effective, sustainable, and efficient utilization of NASA science discoveries and learning experiences.

  20. Improving science education for sustainable development

    NARCIS (Netherlands)

    Eijck, van M.W.; Roth, W.-M.

    2007-01-01

    In recent issues of noteworthy journals, natural scientists have argued for the improvement of science education [1–4]. Such pleas reflect the growing awareness that high-quality science education is required not only for sustaining a lively scientific community that is able to address global

  1. Do science coaches promote inquiry-based instruction in the elementary science classroom?

    Science.gov (United States)

    Wicker, Rosemary Knight

    The South Carolina Mathematics and Science Coaching Initiative established a school-based science coaching model that was effective in improving instruction by increasing the level of inquiry-based instruction in elementary science classrooms. Classroom learning environment data from both teacher groups indicated considerable differences in the quality of inquiry instruction for those classrooms of teachers supported by a science coach. All essential features of inquiry were demonstrated more frequently and at a higher level of open-ended inquiry in classrooms with the support of a science coach than were demonstrated in classrooms without a science coach. However, from teacher observations and interviews, it was determined that elementary schoolteacher practice of having students evaluate conclusions and connect them to current scientific knowledge was often neglected. Teachers with support of a science coach reported changes in inquiry-based instruction that were statistically significant. This mixed ethnographic study also suggested that the Mathematics and Science Coaching Initiative Theory of Action for Instructional Improvement was an effective model when examining the work of science coaches. All components of effective school infrastructure were positively impacted by a variety of science coaching strategies intended to promote inquiry. Professional development for competent teachers, implementation of researched-based curriculum, and instructional materials support were areas highly impacted by the work of science coaches.

  2. Fermilab Friends for Science Education | Tree of Knowledge

    Science.gov (United States)

    Fermilab Friends for Science Education FFSE Home About Us Join Us Support Us Contact Us Tree of Testimonials Our Donors Board of Directors Board Tools Calendar Join Us Donate Now Get FermiGear! Education precollege science education programs. Prominently displayed at the Lederman Science Center is the lovely

  3. Wisconsin Earth and Space Science Education

    Science.gov (United States)

    Bilbrough, Larry (Technical Monitor); French, George

    2003-01-01

    The Wisconsin Earth and Space Science Education project successfilly met its objectives of creating a comprehensive online portfolio of science education curricular resources and providing a professional development program to increase educator competency with Earth and Space science content and teaching pedagogy. Overall, 97% of participants stated that their experience was either good or excellent. The favorable response of participant reactions to the professional development opportunities highlights the high quality of the professional development opportunity. The enthusiasm generated for using the curricular material in classroom settings was overwhelmingly positive at 92%. This enthusiasm carried over into actual classroom implementation of resources from the curricular portfolio, with 90% using the resources between 1-6 times during the school year. The project has had a positive impact on student learning in Wisconsin. Although direct measurement of student performance is not possible in a project of this kind, nearly 75% of participating teachers stated that they saw an increase in student performance in math and science as a result of using project resources. Additionally, nearly 75% of participants saw an increase in the enthusiasm of students towards math and science. Finally, some evidence exists that the professional development academies and curricular portfolio have been effective in changing educator behavior. More than half of all participants indicated that they have used more hands-on activities as a result of the Wisconsin Earth and Space Science Education project.

  4. Promoting Translational Research Among Movement Science, Occupational Science, and Occupational Therapy.

    Science.gov (United States)

    Sainburg, Robert L; Liew, Sook-Lei; Frey, Scott H; Clark, Florence

    2017-01-01

    Integration of research in the fields of neural control of movement and biomechanics (collectively referred to as movement science) with the field of human occupation directly benefits both areas of study. Specifically, incorporating many of the quantitative scientific methods and analyses employed in movement science can help accelerate the development of rehabilitation-relevant research in occupational therapy (OT) and occupational science (OS). Reciprocally, OT and OS, which focus on the performance of everyday activities (occupations) to promote health and well-being, provide theoretical frameworks to guide research on the performance of actions in the context of social, psychological, and environmental factors. Given both fields' mutual interest in the study of movement as it relates to health and disease, the authors posit that combining OS and OT theories and principles with the theories and methods in movement science may lead to new, impactful, and clinically relevant knowledge. The first step is to ensure that individuals with OS or OT backgrounds are academically prepared to pursue advanced study in movement science. In this article, the authors propose 2 strategies to address this need.

  5. Development of a replicable process for translating science into practical health education messages.

    Science.gov (United States)

    Tyus, Nadra C; Freeman, Randall J; Gibbons, M Christopher

    2006-09-01

    There has been considerable discussion about translating science into practical messages, especially among urban minority and "hard-to-reach" populations. Unfortunately, many research findings rarely make it back in useful format to the general public. Few innovative techniques have been established that provide researchers with a systematic process for developing health awareness and prevention messages for priority populations. The purpose of this paper is to describe the early development and experience of a unique community-based participatory process used to develop health promotion messages for a predominantly low-income, black and African-American community in Baltimore, MD. Scientific research findings from peer-reviewed literature were identified by academic researchers. Researchers then taught the science to graphic design students and faculty. The graphic design students and faculty then worked with both community residents and researchers to transform this information into evidence-based public health education messages. The final products were culturally and educationally appropriate, health promotion messages reflecting urban imagery that were eagerly desired by the community. This early outcome is in contrast to many previously developed messages and materials created through processes with limited community involvement and by individuals with limited practical knowledge of local community culture or expertise in marketing or mass communication. This process may potentially be utilized as a community-based participatory approach to enhance the translation of scientific research into desirable and appropriate health education messages.

  6. The Role of Critical Thinking in Science Education

    Science.gov (United States)

    Santos, Luis Fernando

    2017-01-01

    This review aims to respond various questions regarding the role of Critical Thinking in Science Education from aspects concerning the importance or relevance of critical thinking in science education, the situation in the classroom and curriculum, and the conception of critical thinking and fostering in science education. This review is specially…

  7. The New England Space Science Initiative in Education (NESSIE)

    Science.gov (United States)

    Waller, W. H.; Clemens, C. M.; Sneider, C. I.

    2002-12-01

    Founded in January 2002, NESSIE is the NASA/OSS broker/facilitator for education and public outreach (E/PO) within the six-state New England region. NESSIE is charged with catalyzing and fostering collaborations among space scientists and educators within both the formal and informal education communities. NESSIE itself is a collaboration of scientists and science educators at the Museum of Science, Harvard-Smithsonian Center for Astrophysics, and Tufts University. Its primary goals are to 1) broker partnerships among space scientists and educators, 2) facilitate a wide range of educational and public outreach activities, and 3) examine and improve space science education methods. NESSIE's unique strengths reside in its prime location (the Museum of Science), its diverse mix of scientists and educators, and its dedicated board of advisors. NESSIE's role as a clearinghouse and facilitator of space science education is being realized through its interactive web site and via targeted meetings, workshops, and conferences involving scientists and educators. Special efforts are being made to reach underserved groups by tailoring programs to their particular educational needs and interests. These efforts are building on the experiences of prior and ongoing programs in space science education at the Museum of Science, the Harvard-Smithsonian Center for Astrophysics, Tufts University, and NASA.

  8. Science and Sanity in Special Education.

    Science.gov (United States)

    Dammann, James E.; Vaughn, Sharon

    2001-01-01

    This article describes the usefulness of a scientific approach to improving knowledge and practice in special education. Of four approaches to knowledge (superstition, folklore, craft, and science), craft and science are supported and implications for special education drawn including the need to bridge the gulf between research knowledge and…

  9. Developing Intercultural Science Education in Ecuador

    Science.gov (United States)

    Schroder, Barbara

    2008-01-01

    This article traces the recent development of intercultural science education in Ecuador. It starts by situating this development within the context of a growing convergence between Western and indigenous sciences. It then situates it within the larger historical, political, cultural, and educational contexts of indigenous communities in Ecuador,…

  10. Game-Based Learning in Science Education: A Review of Relevant Research

    Science.gov (United States)

    Li, Ming-Chaun; Tsai, Chin-Chung

    2013-12-01

    The purpose of this study is to review empirical research articles regarding game-based science learning (GBSL) published from 2000 to 2011. Thirty-one articles were identified through the Web of Science and SCOPUS databases. A qualitative content analysis technique was adopted to analyze the research purposes and designs, game design and implementation, theoretical backgrounds and learning foci of these reviewed studies. The theories and models employed by these studies were classified into four theoretical foundations including cognitivism, constructivism, the socio-cultural perspective, and enactivism. The results indicate that cognitivism and constructivism were the major theoretical foundations employed by the GBSL researchers and that the socio-cultural perspective and enactivism are two emerging theoretical paradigms that have started to draw attention from GBSL researchers in recent years. The analysis of the learning foci showed that most of the digital games were utilized to promote scientific knowledge/concept learning, while less than one-third were implemented to facilitate the students' problem-solving skills. Only a few studies explored the GBSL outcomes from the aspects of scientific processes, affect, engagement, and socio-contextual learning. Suggestions are made to extend the current GBSL research to address the affective and socio-contextual aspects of science learning. The roles of digital games as tutor, tool, and tutee for science education are discussed, while the potentials of digital games to bridge science learning between real and virtual worlds, to promote collaborative problem-solving, to provide affective learning environments, and to facilitate science learning for younger students are also addressed.

  11. Inquiry-based science education

    DEFF Research Database (Denmark)

    Østergaard, Lars Domino; Sillasen, Martin Krabbe; Hagelskjær, Jens

    2010-01-01

    Inquiry-based science education (IBSE) er en internationalt afprøvet naturfagsdidaktisk metode der har til formål at øge elevernes interesse for og udbytte af naturfag. I artiklen redegøres der for metoden, der kan betegnes som en elevstyret problem- og undersøgelsesbaseret naturfagsundervisnings......Inquiry-based science education (IBSE) er en internationalt afprøvet naturfagsdidaktisk metode der har til formål at øge elevernes interesse for og udbytte af naturfag. I artiklen redegøres der for metoden, der kan betegnes som en elevstyret problem- og undersøgelsesbaseret...

  12. African Journal of Educational Studies in Mathematics and Sciences

    African Journals Online (AJOL)

    African Journal of Educational Studies in Mathematics and Sciences. ... Studies in Mathematics and Sciences (AJESMS) is an international publication that ... in the fields of mathematics education, science education and related disciplines.

  13. The promotion of reading in Education Framework

    Directory of Open Access Journals (Sweden)

    Maite Monar van Vliet

    2012-11-01

    Full Text Available The research implants a theoretical-practical vision of reading promotion at the educative field. On one hand, they show us the state of the issue focusing on the legislative field, the research and promotion of virtual reading and, concretely, in the País Valenciano case, a practical research location. A panoramic from the nowadays legislation is established parting from the UNESCO. The LOE and the reading plans. Specialists’ different studies enrich the vision and virtual platforms complete the established theoretical description. On the other hand, a qualitative field work is done with the objective of evaluating the benefits of webs, blogs and wikis in the classroom for reading promotion during the school year 2010-2011 with three groups in three different centres. The work consists of watching the digital platforms application for the reading promotion in the classroom and analysing its usefulness through some cases studies, a discussion group and the triangulation. The research concludes with some reflections which invite the reader to approach to the reading promotion at the educational field of virtual technology.

  14. Education and Policy in Soil Science: The U.S. Experience

    Science.gov (United States)

    Sharpley, Andrew; van Es, Harold; Dick, Richard; Bergfeld, Ellen; Anderson, Karl; Chapman, Susan; Fisk, Susan

    2017-04-01

    The Soil Science Society of America (SSSA), founded in 1936, fosters the transfer of knowledge and practices to sustain soils globally, and now serves 6,000 members worldwide. It is also home to over 1,000 certified professionals dedicated to advancing the field of soil science. The Society provides information about soils in relation to crop production, environmental quality, ecosystem sustainability, bioremediation, waste management, recycling, and wise land use. We provide high-impact research publications, educational programs, certifications, and science-policy initiatives, which will be described in more detail in this presentation. The need for soil science education to a wider audience and development and promotion of soils-based policy initiatives, has increased in the last decade with recognition of the role soils play in sustaining life, population well-being at the nexus of food, energy, and water security. To address these needs, SSSA has two general public outreach sites online: www.soils.org/discover-soils and https://soilsmatter.wordpress.com/, reaching over a half-million viewers per year, as well as social media platforms. We are dedicated to increasing interest and awareness of soil science among K-12 teachers and their students, and working to integrate more information on soil science into the science curriculum of schools over multiple grade levels. For instance, we have a website dedicated to children (http://www.soils4kids.org/), which describes fun games to play with soil, suggestions for science-fair experiments, and opens their minds to careers in soil science. Another site (http://www.soils4teachers.org/) is dedicated to the needs of school teachers, providing ready resources for the classroom. Society members have even authored books ("Soil! Get the Inside Scoop" for one) to get children aged 9 to 12, excited about the living world of soil. In keeping with the times, a blog called "Soils Matter" is hosted by Society staff and now has

  15. van Eijck and Roth's utilitarian science education: why the recalibration of science and traditional ecological knowledge invokes multiple perspectives to protect science education from being exclusive

    Science.gov (United States)

    Mueller, Michael P.; Tippins, Deborah J.

    2010-12-01

    This article is a philosophical analysis of van Eijck and Roth's (2007) claim that science and traditional ecological knowledge (TEK) should be recalibrated because they are incommensurate, particular to the local contexts in which they are practical. In this view, science maintains an incommensurate status as if it is a "fundamental" basis for the relative comparison of other cultural knowledges, which reduces traditional knowledge to a status of in relation to the prioritized (higher)-status of natural sciences. van Eijck and Roth reject epistemological Truth as a way of thinking about sciences in science education. Rather they adopt a utilitarian perspective of cultural-historical activity theory to demonstrate when traditional knowledge is considered science and when it is not considered science, for the purposes of evaluating what should be included in U.S. science education curricula. There are several challenges for evaluating what should be included in science education when traditional knowledges and sciences are considered in light of a utilitarian analysis. Science as diverse, either practically local or theoretically abstract, is highly uncertain, which provides opportunities for multiple perspectives to enlarge and protect the natural sciences from exclusivity. In this response to van Eijck and Roth, we make the case for considering dialectical relationships between science and TEK in order to ensure cultural diversity in science education, as a paradigm. We also emphasize the need to (re)dissolve the hierarchies and dualisms that may emerge when science is elevated in status in comparison with other knowledges. We conclude with a modification to van Eijck and Roth's perspective by recommending a guiding principle of cultural diversity in science education as a way to make curriculum choices. We envision this principle can be applied when evaluating science curricula worldwide.

  16. Science Teacher Education in the Twenty-First Century: a Pedagogical Framework for Technology-Integrated Social Constructivism

    Science.gov (United States)

    Barak, Miri

    2017-04-01

    Changes in our global world have shifted the skill demands from acquisition of structured knowledge to mastery of skills, often referred to as twenty-first century competencies. Given these changes, a sequential explanatory mixed methods study was undertaken to (a) examine predominant instructional methods and technologies used by teacher educators, (b) identify attributes for learning and teaching in the twenty-first century, and (c) develop a pedagogical framework for promoting meaningful usage of advanced technologies. Quantitative and qualitative data were collected via an online survey, personal interviews, and written reflections with science teacher educators and student teachers. Findings indicated that teacher educators do not provide sufficient models for the promotion of reform-based practice via web 2.0 environments, such as Wikis, blogs, social networks, or other cloud technologies. Findings also indicated four attributes for teaching and learning in the twenty-first century: (a) adapting to frequent changes and uncertain situations, (b) collaborating and communicating in decentralized environments, (c) generating data and managing information, and (d) releasing control by encouraging exploration. Guided by social constructivist paradigms and twenty-first century teaching attributes, this study suggests a pedagogical framework for fostering meaningful usage of advanced technologies in science teacher education courses.

  17. Initial teacher education and continuing professional development for science teachers

    DEFF Research Database (Denmark)

    Dolin, Jens; Evans, Robert Harry

    2011-01-01

    Research into ways of improving the initial education and continuing professional development of science teachers is closely related to both common and unique strands. The field is complex since science teachers teach at different educational levels, are often educated in different science subjects......, and belong to various cultures, both educationally and socially. Section 1 presents a review of the research literature across these dimensions and looks at the knowledge, skills and competences needed for teaching science, specific issues within science teacher education, and strategies for educating...... and developing science teachers....

  18. SPORTS SCIENCES AND MULTICULTURALISM - EDUCATIONAL AND PROFESSIONAL IMPACT

    Directory of Open Access Journals (Sweden)

    Danica Pirsl

    2012-09-01

    Full Text Available The aim of the paper is to familiarize the sports sciences educators to the pedagogic concept and professional benefits and awareness of multicultural education if implemented in sports sciences curricula, especially in the efforts to obtain international transparency through sports science literature writing and publishing. Data Sources were textbook chapters and articles searched through the archives of Diversity Digest and Academic Medicine for the years 2000 to 2005 with the key words multiculturalism, diversity, cultural competence, education, and learning. Synthesized data were used to present a rational argument for the inclusion of a critical pedagogy into the field of sports science education. The infrastructure in the professional field of sports sciences, review of the literature on critical multicultural theory and pedagogy and the potential cognitive and intellectual implications of diversity and multicultural education were analyzed. Conclusions/Recommendations focus on possible various and creative strategies for implementing a multicultural agenda in sports sciences curricula and on the analysis of the associated benefits and outcomes of such educational strategies.

  19. Trends of Science Education Research: An Automatic Content Analysis

    Science.gov (United States)

    Chang, Yueh-Hsia; Chang, Chun-Yen; Tseng, Yuen-Hsien

    2010-08-01

    This study used scientometric methods to conduct an automatic content analysis on the development trends of science education research from the published articles in the four journals of International Journal of Science Education, Journal of Research in Science Teaching, Research in Science Education, and Science Education from 1990 to 2007. The multi-stage clustering technique was employed to investigate with what topics, to what development trends, and from whose contribution that the journal publications constructed as a science education research field. This study found that the research topic of Conceptual Change & Concept Mapping was the most studied topic, although the number of publications has slightly declined in the 2000's. The studies in the themes of Professional Development, Nature of Science and Socio-Scientific Issues, and Conceptual Chang and Analogy were found to be gaining attention over the years. This study also found that, embedded in the most cited references, the supporting disciplines and theories of science education research are constructivist learning, cognitive psychology, pedagogy, and philosophy of science.

  20. Epistemological Beliefs and Practices of Science Faculty with Education Specialties: Combining Teaching Scholarship and Interdisciplinarity

    Science.gov (United States)

    Addy, Tracie Marcella

    2011-12-01

    Across the United States institutions of higher education address educational reform by valuing scholarship that focuses on teaching and learning, especially in STEM fields. University science departments can encourage teaching scholarship by hiring science faculty with education specialties (SFES), individuals who have expertise in both science and science education. The goal of this study was to understand how the epistemological beliefs and teaching practices of SFES relate to national reform efforts in science teaching promoting student-centered instruction. The research questions guiding this investigation were: (1) What epistemological belief systems do science faculty with education specialties espouse concerning the teaching and learning of science?; and (2) What are the classroom practices of science faculty with education specialties? How are these practices congruent with the reform efforts described by the National Research Council (1996, 2001, 2003)? The theoretical framework guiding the study was interdisciplinarity, the integration of knowledge between two or more disciplines (science and science pedagogy). The research design employed mixed (qualitative and quantitative) approaches and focused on 25 volunteer SFES participants. The TBI, ATI, and RTOP were used to triangulate self-report and videotaped teaching vignettes, and develop profiles of SFES. Of the 25 SFES participants, 82 percent of their beliefs were transitional or student-centered beliefs. Seventy-two percent of the 25 SFES espoused more student-focused than teacher focused approaches. The classroom practices of 10 SFES were on average transitional in nature (at the boundary of student-focused and teacher-focused). The beliefs of SFES appeared to be influenced by the sizes of their courses, and were positive correlated with reform-based teaching practices. There was a relationship between the degree to which they implemented reform-based practice and their perceived level of

  1. Persuasion and Attitude Change in Science Education.

    Science.gov (United States)

    Koballa, Thomas R., Jr.

    1992-01-01

    Persuasion is presented as it may be applied by science educators in research and practice. The orientation taken is that science educators need to be acquainted with persuasion in the context of social influence and learning theory to be able to evaluate its usefulness as a mechanism for developing and changing science-related attitudes. (KR)

  2. Leveraging Citizen Science and Information Technology for Population Physical Activity Promotion

    Science.gov (United States)

    King, Abby C.; Winter, Sandra J.; Sheats, Jylana L.; Rosas, Lisa G.; Buman, Matthew P.; Salvo, Deborah; Rodriguez, Nicole M.; Seguin, Rebecca A.; Moran, Mika; Garber, Randi; Broderick, Bonnie; Zieff, Susan G.; Sarmiento, Olga Lucia; Gonzalez, Silvia A.; Banchoff, Ann; Dommarco, Juan Rivera

    2016-01-01

    PURPOSE While technology is a major driver of many of society’s comforts, conveniences, and advances, it has been responsible, in a significant way, for engineering regular physical activity and a number of other positive health behaviors out of people’s daily lives. A key question concerns how to harness information and communication technologies (ICT) to bring about positive changes in the health promotion field. One such approach involves community-engaged “citizen science,” in which local residents leverage the potential of ICT to foster data-driven consensus-building and mobilization efforts that advance physical activity at the individual, social, built environment, and policy levels. METHOD The history of citizen science in the research arena is briefly described and an evidence-based method that embeds citizen science in a multi-level, multi-sectoral community-based participatory research framework for physical activity promotion is presented. RESULTS Several examples of this citizen science-driven community engagement framework for promoting active lifestyles, called “Our Voice”, are discussed, including pilot projects from diverse communities in the U.S. as well as internationally. CONCLUSIONS The opportunities and challenges involved in leveraging citizen science activities as part of a broader population approach to promoting regular physical activity are explored. The strategic engagement of citizen scientists from socio-demographically diverse communities across the globe as both assessment as well as change agents provides a promising, potentially low-cost and scalable strategy for creating more active, healthful, and equitable neighborhoods and communities worldwide. PMID:27525309

  3. The Particulate Nature of Matter in Science Education and in Science.

    Science.gov (United States)

    Vos, Wobbe de; Verdonk, Adri H.

    1996-01-01

    Discusses ideas about the particulate nature of matter and assesses the extent to which these represent a compromise between scientific and educational considerations. Analyzes relations between the particulate nature of matter in science and science education in an attempt to understand children's inclination to attribute all kinds of macroscopic…

  4. National health education programs to promote healthy eating and physical activity.

    Science.gov (United States)

    Donato, Karen A

    2006-02-01

    The national education programs and campaigns described here are examples of the many unique kinds of federal efforts under way to promote the pillars of healthy eating and increased physical activity included in the "Healthier US Initiative." They are similar in that: 1) they are based on the best available science that a health problem exists, and 2) that healthy eating and physical active behaviors will improve health status. They are unique in their implementation, for example, in private/public partnerships, coordinating committees of professional associations, and congressionally mandated interventions. Most importantly, they provide the impetus to get a particular health issue on the public agenda.

  5. When Nature of Science Meets Marxism: Aspects of Nature of Science Taught by Chinese Science Teacher Educators to Prospective Science Teachers

    Science.gov (United States)

    Wan, Zhi Hong; Wong, Siu Ling; Zhan, Ying

    2013-01-01

    Nature of science (NOS) is beginning to find its place in the science education in China. In a study which investigated Chinese science teacher educators' conceptions of teaching NOS to prospective science teachers through semi-structured interviews, five key dimensions emerged from the data. This paper focuses on the dimension, "NOS content…

  6. The National Space Science and Technology Center's Education and Public Outreach Program

    Science.gov (United States)

    Cox, G. N.; Denson, R. L.

    2004-12-01

    The objective of the National Space Science and Technology Center's (NSSTC) Education and Public Outreach program (EPO) is to support K-20 education by coalescing academic, government, and business constituents awareness, implementing best business/education practices, and providing stewardship over funds and programs that promote a symbiotic relationship among these entities, specifically in the area of K-20 Science, Technology, Engineering, and Mathematics (STEM) education. NSSTC EPO Program's long-term objective is to showcase its effective community-based integrated stakeholder model in support of STEM education and to expand its influence across the Southeast region for scaling ultimately across the United States. The Education and Public Outreach program (EPO) is coordinated by a supporting arm of the NSSTC Administrative Council called the EPO Council (EPOC). The EPOC is funded through federal, state, and private grants, donations, and in-kind contributions. It is comprised of representatives of NSSTC Research Centers, both educators and scientists from the Alabama Space Science and Technology Alliance (SSTA) member institutions, the Alabama Space Grant Consortium and the NASA Marshall Space Flight Center's (MSFC) Education Office. Through its affiliation with MSFC and the SSTA - a consortium of Alabama's research universities that comprise the NSSTC, EPO fosters the education and development of the next generation of Alabama scientists and engineers by coordinating activities at the K-20 level in cooperation with the Alabama Department of Education, the Alabama Commission on Higher Education, and Alabama's businesses and industries. The EPO program's primary objective is to be Alabama's premiere organization in uniting academia, government, and private industry by way of providing its support to the State and Federal Departments of Education involved in systemic STEM education reform, workforce development, and innovative uses of technology. The NSSTC EPO

  7. [Regulatory science: modern trends in science and education for pharmaceutical products].

    Science.gov (United States)

    Beregovykh, V V; Piatigorskaia, N V; Aladysheva, Zh I

    2012-01-01

    This article reviews modern trends in development of new instruments, standards and approaches to drugs safety, efficacy and quality assessment in USA and EU that can be called by unique term--"regulatory science" which is a new concept for Russian Federation. New education programs (curricula) developed by USA and EU universities within last 3 years are reviewed. These programs were designed in order to build workforce capable to utilize science approach for drug regulation. The principal mechanisms for financing research in regulatory science used by Food and Drug Administration are analyzed. There are no such science and relevant researches in Russian Federation despite the high demand as well as needs for the system for higher education and life-long learning education of specialists for regulatory affairs (or compliance).

  8. Women and girls in science education: Female teachers' and students' perspectives on gender and science

    Science.gov (United States)

    Crotty, Ann

    Science is a part of all students' education, PreK-12. Preparing students for a more scientifically and technologically complex world requires the best possible education including the deliberate inclusion and full contributions of all students, especially an underrepresented group: females in science. In the United States, as elsewhere in the world, the participation of girls and women in science education and professional careers in science is limited, particularly in the physical sciences (National Academy of Sciences [NAS], 2006). The goal of this research study is to gain a better understanding of the perspectives and perceptions of girls and women, both science educators and students, related to gender and participation in science at the time of an important course: high school chemistry. There is a rich body of research literature in science education that addresses gender studies post---high school, but less research that recognizes the affective voices of practicing female science teachers and students at the high school level (Bianchini, Cavazos, & Helms, 2000; Brown & Gilligan, 1992; Gilligan, 1982). Similarly, little is known with regard to how female students and teachers navigate their educational, personal, and professional experiences in science, or how they overcome impediments that pose limits on their participation in science, particularly the physical sciences. This exploratory study focuses on capturing voices (Brown & Gilligan, 1992; Gilligan, 1982) of high school chemistry students and teachers from selected urban and suburban learning communities in public schools in the Capital Region of New York State. Through surveys, interviews, and focus groups, this qualitative study explores the intersection of the students' and teachers' experiences with regard to the following questions: (1) How do female chemistry teachers view the role gender has played in their professional and personal lives as they have pursued education, degree status, and

  9. Science and Society: On the Future of India's Education System

    CERN Multimedia

    2002-01-01

    Education in developing countries still has a long way to go before it equals what those of us in developed countries take for granted. In India, for example, there are between 300 and 500 million people for whom education is virtually non-existent. Rajan Gupta, a physicist at the US Los Alamos National Laboratory (LANL), devotes part of his time to giving lectures in Indian schools mainly about HIV/AIDS, but also about other societal issues. In his Science and Society talk at CERN, Gupta will talk about education in India, focusing on key issues at school, college, and university level. Gupta will highlight the need to provide the combination of health care, nutrition and education, and he will present plans for introducing the use of computers and modern communication systems to educate children. Issues of migration and brain drain, as well as overall global threats to human security will also be discussed. Rajan Gupta, leader of the 'elementary particles and field theory' group at LANL, started promoting...

  10. Rheumatology Research Foundation Clinician Scholar Educator Award: Fifteen Years Promoting Rheumatology Educators and Education.

    Science.gov (United States)

    Berman, Jessica R; O'Rourke, Kenneth S; Kolasinski, Sharon L; Aizer, Juliet; Wheatley, Mary J; Battistone, Michael J; Siaton, Bernadette C; Criscione-Schreiber, Lisa; Pillinger, Michael H; Lazaro, Deana M

    2016-11-01

    The Rheumatology Research Foundation's Clinician Scholar Educator (CSE) award is a 3-year career development award supporting medical education research while providing opportunities for mentorship and collaboration. Our objective was to document the individual and institutional impact of the award since its inception, as well as its promise to strengthen the subspecialty of rheumatology. All 60 CSE Award recipients were surveyed periodically. Fifty-six of those 60 awardees (90%) responded to requests for survey information that included post-award activities, promotions, and further funding. Data were also collected from yearly written progress reports for each grant. Of the total CSE recipients to date, 48 of 60 (80%) are adult rheumatologists, 11 of 60 (18%) are pediatric rheumatologists, and 1 is an adult and pediatric rheumatologist. Two-thirds of survey respondents spend up to 30% of their total time in educational activities, and one-third spend greater than 30%. Thirty-one of the 60 CSE recipients (52%) have published a total of 86 medical education papers. Twenty-six of 52 (50%) had received an academic promotion following the award. Eleven awardees earned advanced degrees. We describe the creation and evolution of a grant program from a medical subspecialty society foundation and the impact on producing education research, individual identity formation, and ongoing support for educators. This community of rheumatology scholar educators now serves as an important resource at the national level for the American College of Rheumatology and its membership. We believe that this grant may serve as a model for other medical societies that want to promote education scholarship and leadership within their specialties. © 2016, American College of Rheumatology.

  11. Putting education in "educational" apps: lessons from the science of learning.

    Science.gov (United States)

    Hirsh-Pasek, Kathy; Zosh, Jennifer M; Golinkoff, Roberta Michnick; Gray, James H; Robb, Michael B; Kaufman, Jordy

    2015-05-01

    Children are in the midst of a vast, unplanned experiment, surrounded by digital technologies that were not available but 5 years ago. At the apex of this boom is the introduction of applications ("apps") for tablets and smartphones. However, there is simply not the time, money, or resources available to evaluate each app as it enters the market. Thus, "educational" apps-the number of which, as of January 2015, stood at 80,000 in Apple's App Store (Apple, 2015)-are largely unregulated and untested. This article offers a way to define the potential educational impact of current and future apps. We build upon decades of work on the Science of Learning, which has examined how children learn best. From this work, we abstract a set of principles for two ultimate goals. First, we aim to guide researchers, educators, and designers in evidence-based app development. Second, by creating an evidence-based guide, we hope to set a new standard for evaluating and selecting the most effective existing children's apps. In short, we will show how the design and use of educational apps aligns with known processes of children's learning and development and offer a framework that can be used by parents and designers alike. Apps designed to promote active, engaged, meaningful, and socially interactive learning-four "pillars" of learning-within the context of a supported learning goal are considered educational. © The Author(s) 2015.

  12. A Study of Health-Promoting Behaviors of Medical Sciences Students of Islamic Azad University of Sari, Iran 2013

    Directory of Open Access Journals (Sweden)

    Ghahraman Mahmoodi

    2014-04-01

    Full Text Available Abstract Background and purpose:Health-promoting activities and a healthy lifestyle are major strategies to preserve health. The purpose of this research study, health-promoting behaviors of medical sciences student of Islamic Azad University of Sari, Iran, was carried out in order to determine the compliance and to promote the medical community. Materials and Methods:This was a cross-sectional study conducted on 285 university students, School of Medical Sciences, Sari, Iran, who were selected using stratified random sampling. Tools for data collection questionnaire were health-promoting lifestyle profile-II, which includes two main categories of health behaviors and psychosocial health of six sub-categories. Data were entered into the SPSS statistical software and for analysis, Friedman and One-sample test was used. Results:Of the six dimensions of health-promoting behaviors, spiritual growth, averaging 25.11 ± 4.57 most, and the area of physical activity with a mean 18.33 ± 4.40 was the lowest score accounted in this study. The results of Freidman test showed that the ranking of dimensions (aspects are as following: 1 - personnel inter-relationship 2 - spiritual growth 3 - nutrition 4 - management stress 5 - health responsibility and 6 - physical activity. Conclusion:The finding was shown that doing the facilitator behavior and health promotion in the students are at the acceptable level. Furthermore, the terms of personnel inter-relationship, spiritual growth, nutrition, and stress management are at the important level of health promotion aspects. Regarding the above situations of health-promoting behaviors for health education programs among medical group students is recommended.

  13. Debate on science and technology promotion for overcoming economic crisis

    International Nuclear Information System (INIS)

    1990-05-01

    This book records debate point and topic presentation of debate on science and technology promotion for overcoming economic difficulties which lists opening greeting, topic presentation such as innovation of national science technology system, sufficient supply and demand of science and engineering personnel, invigoration of technology research of corporation and general debate. This debate was held by the Policy Board of democratic and liberal party on 22 May 1990 in Press center.

  14. [Research on health education and promotion in Spanish nursery and primary schools. A systematic review of studies published between 1995 and 2005].

    Science.gov (United States)

    Davó, Mari Carmen; Gil-González, Diana; Vives-Cases, Carmen; Alvarez-Dardet, Carlos; La Parra, Daniel

    2008-01-01

    To identify the characteristics of health education and promotion interventions in Spanish nursery and primary schools, through the studies published in scientific journals. We performed a review of studies on health education and promotion interventions in Spanish nursery and primary schools, published from 1995 to 2005. The information sources were Medline (through Pubmed), Cinhal, Eric, Sociological Abstracts, Science Citation Index, and Isooc (CSIC). Studies performed in Spanish nursery and primary schools that incorporated health education and promotion interventions were selected. The studies' general features, main subject and aims, methodology, the kind of intervention described, and compliance with the criteria for Healthy Schools were analyzed. Only 26 of the 346 articles identified met the inclusion criteria. Health education programs focussed more on disease prevention than on health promotion and only a few studies were performed in nursery and primary schools. The criteria for health promotion in schools were included in 5 articles (19.2%). The importance of health institutions (n = 7; 26.9%) and universities (n = 8; 30.8%) as promoters of programs was notable. The most frequent subject was smoking (n = 11; 42.3%). Teachers play a lesser role in health promotion in schools than health institutions in the implementation and dissemination of health programs. Research into health promotion in nursery and primary schools is scarce.

  15. Supporting new science teachers in pursuing socially just science education

    Science.gov (United States)

    Ruggirello, Rachel; Flohr, Linda

    2017-10-01

    This forum explores contradictions that arose within the partnership between Teach for America (TFA) and a university teacher education program. TFA is an alternate route teacher preparation program that places individuals into K-12 classrooms in low-income school districts after participating in an intense summer training program and provides them with ongoing support. This forum is a conversation about the challenges we faced as new science teachers in the TFA program and in the Peace Corps program. We both entered the teaching field with science degrees and very little formal education in science education. In these programs we worked in a community very different from the one we had experienced as students. These experiences allow us to address many of the issues that were discussed in the original paper, namely teaching in an unfamiliar community amid challenges that many teachers face in the first few years of teaching. We consider how these challenges may be amplified for teachers who come to teaching through an alternate route and may not have as much pedagogical training as a more traditional teacher education program provides. The forum expands on the ideas presented in the original paper to consider the importance of perspectives on socially just science education. There is often a disconnect between what is taught in teacher education programs and what teachers actually experience in urban classrooms and this can be amplified when the training received through alternate route provides a different framework as well. This forum urges universities and alternate route programs to continue to find ways to authentically partner using practical strategies that bring together the philosophies and goals of all stakeholders in order to better prepare teachers to partner with their students to achieve their science learning goals.

  16. Integrating technology into radiologic science education.

    Science.gov (United States)

    Wertz, Christopher Ira; Hobbs, Dan L; Mickelsen, Wendy

    2014-01-01

    To review the existing literature pertaining to the current learning technologies available in radiologic science education and how to implement those technologies. Only articles from peer-reviewed journals and scholarly reports were used in the research for this review. The material was further restricted to those articles that emphasized using new learning technologies in education, with a focus on radiologic science education. Teaching in higher education is shifting from a traditional classroom-based lecture format to one that incorporates new technologies that allow for more varied and diverse educational models. Radiologic technology educators must adapt traditional education delivery methods to incorporate current technologies. Doing so will help engage the modern student in education in ways in which they are already familiar. As students' learning methods change, so must the methods of educational delivery. The use of new technologies has profound implications for education. If implemented properly, these technologies can be effective tools to help educators.

  17. Engineering and science education for nuclear power

    International Nuclear Information System (INIS)

    1986-01-01

    The Guidebook contains detailed information on curricula which would provide the professional technical education qualifications which have been established for nuclear power programme personnel. The core of the Guidebook consists of model curricula in engineering and science, including relevant practical work. Curricula are provided for specialization, undergraduate, and postgraduate programmes in nuclear-oriented mechanical, chemical, electrical, and electronics engineering, as well as nuclear engineering and radiation health physics. Basic nuclear science and engineering laboratory work is presented together with a list of basic experiments and the nuclear equipment needed to perform them. Useful measures for implementing and improving engineering and science education and training capabilities for nuclear power personnel are presented. Valuable information on the national experiences of IAEA Member States in engineering and science education for nuclear power, as well as examples of such education from various Member States, have been included

  18. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Website Reviews. Articles in Resonance – Journal of Science Education. Volume 4 Issue 8 August 1999 pp 91-93 Website Reviews. Website Review · Harini Nagendra · More Details Fulltext PDF ...

  19. Feast of Science Sense-Ations

    Science.gov (United States)

    Lewis, Elaine; Bullimore, Hayley; Krupa, Amy; Gaschk, Katherine; Pearson, Jennifer

    2014-01-01

    Science expositions at the Canning River Eco Education Centre (CREEC), Perth, Western Australia, have been conducted over the last five years (2009-2013) during National Science Week. These expos aimed to enhance science understanding in the community, foster partnerships for science and promote science careers by providing a scientific feast for…

  20. Health promotion and education activities of community pharmacists in Kuwait.

    Science.gov (United States)

    Awad, Abdelmoneim; Abahussain, Eman

    2010-04-01

    To investigate self-reported practice of pharmacists regarding health promotion and education activities, explore the barriers that may limit their involvement in health promotion and education, and identify their willingness to participate in continuing education programs related to health education. Community pharmacies in Kuwait. A descriptive cross-sectional study was performed using a pre-tested questionnaire on a sample of 223 community pharmacists. The extent of the pharmacists' involvement in counselling patients about health promotion and education topics, their preparation to counsel patients in health promotion and education topics, and their perceived success in changing the patients' health behaviour. The response rate was 92%. Information on medication use was the most frequent reason for consumers seeking community pharmacists' advice. The majority of respondents believed that behaviour related to the proper use of drugs was very important. There was less agreement on the importance of other health behaviours. Respondents indicated they were involved in counselling patients on health behaviours related to use of drugs as prescribed/directed, weight management, medicine contents and side effects, diet modification and stress reduction, but were less involved in counselling on other health behaviours. Respondents' perception of themselves as "most prepared" to counsel patients closely reflected their involvement. Pharmacists reported high levels of success in helping patients to achieve improvements in using their drugs properly compared to low levels in changing patients' personal health behaviours. The majority of respondents believed that pharmacists had a responsibility for counselling consumers on health behaviours (97%, 95% CI 95-99%), and indicated their willingness to learn more about health promotion (84%, 78-88%). Lack of pharmacists' time was reported by about 58% of respondents as the major barrier limiting pharmacists' provision of health

  1. Play with Science in Inquiry Based Science Education

    OpenAIRE

    Andrée, Maria; Lager-Nyqvist, Lotta; Wickman, Per-Olof

    2011-01-01

    In science education students sometimes engage in imaginary science-oriented play where ideas about science and scientists are put to use. Through play, children interpret their experiences, dramatize, give life to and transform what they know into a lived narrative. In this paper we build on the work of Vygotsky on imagination and creativity. Previous research on play in primary and secondary school has focused on play as a method for formal instruction rather than students’ spontaneous info...

  2. Cloud Pedagogy: Utilizing Web-Based Technologies for the Promotion of Social Constructivist Learning in Science Teacher Preparation Courses

    Science.gov (United States)

    Barak, Miri

    2017-10-01

    The new guidelines for science education emphasize the need to introduce computers and digital technologies as a means of enabling visualization and data collection and analysis. This requires science teachers to bring advanced technologies into the classroom and use them wisely. Hence, the goal of this study was twofold: to examine the application of web-based technologies in science teacher preparation courses and to examine pre-service teachers' perceptions of "cloud pedagogy"—an instructional framework that applies technologies for the promotion of social constructivist learning. The study included university teachers ( N = 48) and pre-service science teachers ( N = 73). Data were collected from an online survey, written reflections, and interviews. The findings indicated that university teachers use technologies mainly for information management and the distribution of learning materials and less for applying social constructivist pedagogy. University teachers expect their students (i.e., pre-service science teachers) to use digital tools in their future classroom to a greater extent than they themselves do. The findings also indicated that the "cloud pedagogy" was perceived as an appropriate instructional framework for contemporary science education. The application of the cloud pedagogy fosters four attributes: the ability to adapt to frequent changes and uncertain situations, the ability to collaborate and communicate in decentralized environments, the ability to generate data and manage it, and the ability to explore new venous.

  3. Role of educational media in promoting Information Communication ...

    African Journals Online (AJOL)

    This expository paper examines the role of educational media in promoting. Information Communication Technology in Nigerian Universities. It takes a critical look at some empirical studies on students' academic performance after utilizing educational media. The paper also discusses trends in educational media and ...

  4. "From the Beginning, I Felt Empowered": Incorporating an Ecological Approach to Learning in Elementary Science Teacher Education

    Science.gov (United States)

    Birmingham, Daniel; Smetana, Lara; Coleman, Elizabeth

    2017-09-01

    While a renewed national dialog promotes the importance of science education for future technological and economic viability, students must find science personally relevant to themselves and their communities if the goals set forth in recent reform movements are to be achieved. In this paper, we investigate how incorporating an ecological perspective to learning in teacher education, including opportunities to participate with science in connection to their everyday lives, influenced the ways in which elementary teacher candidates (TCs) envisioned learning and doing science and its potential role in their future classroom. We draw from data collected across three sections of a field-based elementary methods course focused on learning to teach science and social studies through inquiry. We argue that participating in an authentic interdisciplinary inquiry project impacted the ways in which TCs conceived of science, their identities as science learners and teachers and their commitments to bringing inquiry-based science instruction to their future classrooms. This paper addresses issues regarding access to quality science learning experiences in elementary classrooms through empowering TCs to build identities as science learners and teachers in order to impact conditions in their future classrooms.

  5. An international Delphi study examining health promotion and health education in nursing practice, education and policy.

    Science.gov (United States)

    Whitehead, Dean

    2008-04-01

    To arrive at an expert consensus in relation to health promotion and health education constructs as they apply to nursing practice, education and policy. Nursing has often been maligned and criticized, both inside and outside of the profession, for its ability to understand and conduct effective health promotion and health education-related activities. In the absence of an expert-based consensus, nurses may find it difficult to progress beyond the current situation. In the absence of any previously published nursing-related consensus research, this study seeks to fill that knowledge-gap. A two-round Delphi technique via email correspondence. A first-round qualitative questionnaire used open-ended questions for defining health promotion and health education. This was both in general terms and as participants believed these concepts related to the clinical, theoretical (academic/educational) and the policy (political) setting in nursing. Line-by-line qualitative content and thematic analysis of the first-round data generated 13 specific categories. These categories contained 134 statement items. The second-round questionnaire comprised the identified 134 statements. Using a five-point Likert scale (ranging from 1 = strongly disagree to 5 = strongly agree) participants scored and rated their level of agreement/disagreement against the listed items. Data from the second-round was descriptively analysed according to distribution and central tendency measures. An expert consensus was reached on 65 of the original 134 statements. While some minor contradiction was demonstrated, strong consensus emerged around the issues of defining health promotion and health education and the emergence of a wider health promotion and health education role for nursing. No consensus was reached on only one of the 13 identified topic categories - that of 'nurses working with other disciplines and agencies in a health education and health promotion role.' This study provides a hitherto

  6. Finding Meaningful Roles for Scientists in science Education Reform

    Science.gov (United States)

    Evans, Brenda

    Successful efforts to achieve reform in science education require the active and purposeful engagement of professional scientists. Working as partners with teachers, school administrators, science educators, parents, and other stakeholders, scientists can make important contributions to the improvement of science teaching and learning in pre-college classrooms. The world of a practicing university, corporate, or government scientist may seem far removed from that of students in an elementary classroom. However, the science knowledge and understanding of all future scientists and scientifically literate citizens begin with their introduction to scientific concepts and phenomena in childhood and the early grades. Science education is the responsibility of the entire scientific community and is not solely the responsibility of teachers and other professional educators. Scientists can serve many roles in science education reform including the following: (1) Science Content Resource, (2) Career Role Model, (3) Interpreter of Science (4) Validator for the Importance of Learning Science and Mathematics, (5) Champion of Real World Connections and Value of Science, (6) Experience and Access to Funding Sources, (7) Link for Community and Business Support, (8) Political Supporter. Special programs have been developed to assist scientists and engineers to be effective partners and advocates of science education reform. We will discuss the rationale, organization, and results of some of these partnership development programs.

  7. An investigation of a professional development model in science education: A systems approach

    Science.gov (United States)

    Bell, Glenda Love

    The Mathematics and Science Cooperative (MSEC), a four year longevity model of professional development education for in-service teachers, is closely aligned with the spirit and tenets of science for all. This partnership of a university, a school district, and a higher education coordinating board, seeks to promote and improve science and mathematics achievement for underserved and underrepresented populations. This study sought to explore how this model affects elementary in-service teachers' feelings of self-efficacy toward science and science teaching. Interactive Qualitative Research (IQR), a systems approach of natural inquiry, was used for this study. Theory is grounded in the data collected and analyzed through group processes. A core group of teachers, key teachers representing grades one through six and lead teachers the campus contact representatives, received professional development education from university professors in semi-monthly after school workshops and in a three week summer science institute held on-site. In this study, (N = 18) key and lead teachers participated in a focus group, a picture board exercise (a projective type exercise), interviews, and classroom observations. Within the system of the MSEC professional development model, cause and effect relationships among eleven phenomena were identified which had the greatest impact on the teachers' feelings of self-efficacy and science teaching practices. Changed teaching practices were indicated by inquiry-based science lessons with students as active learners. Five principles of self-efficacy: (1) efficacy; (2) goals setting; (3) values; (4) expectancy; and, (5) control beliefs were used to evaluate efficacy beliefs. Findings from the data collection and analysis identified two phenomena, the university instructional leadership role and teacher time commitments and time constraints, both internally and externally imposed, which seemed to have the greatest impact on elementary teachers

  8. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. R K Varma. Articles written in Resonance – Journal of Science Education. Volume 3 Issue 8 August 1998 pp 8-13. On Science Education and Scientific Research · R K Varma · More Details Fulltext PDF ...

  9. Educating adult females for leadership roles in an informal science program for girls

    Science.gov (United States)

    McCreedy, Dale

    The purpose of this study is to gain an understanding of and an evidentiary warrant for, how a community of practice focused on informal science learning, can engage and promote active participation that offers adult female members and the community opportunities for legitimacy and transformation. This study is a qualitative, ethnographic research study that documents how adult female volunteers, historically inexperienced and/or excluded from traditional practices of science, come to engage in science activities through an informal, community-based context that helps them to appreciate science connections in their lives that are ultimately empowering and agentic. I begin to understand the ways in which such informal contexts, often thought to be marginal to dominant educational beliefs and practices, can offer adults outside of the field of science, education, or both, an entree into science learning and teaching that facilitate female's participation in legitimate and empowering ways. Using descriptive analyses, I first identify the characteristics of peripheral and active program participants. Through phenomenological analyses, I then develop an understanding of participation in an informal science program by focusing on three adult female members' unique trajectories of participation leading to core member status. Each draws on different aspects of the program that they find most salient, illustrating how different elements can serve as motivators for participation, and support continuation along the trajectory of participation reflecting personal and political agency. Through a purposeful ethnographic case-study analysis, I then explore one core member's transformation, evidenced by her developing identities as someone who enjoys science, engages in science activities, and, enacts a role as community old timer and door opener to science learning. This study: (1) contributes to the limited knowledge base in fields of informal learning, science education, and

  10. Simulations as Scaffolds in Science Education

    DEFF Research Database (Denmark)

    Renken, Maggie; Peffer, Melanie; Otrel-Cass, Kathrin

    This book outlines key issues for addressing the grand challenges posed to educators, developers, and researchers interested in the intersection of simulations and science education. To achieve this, the authors explore the use of computer simulations as instructional scaffolds that provide...... strategies and support when students are faced with the need to acquire new skills or knowledge. The monograph aims to provide insight into what research has reported on navigating the complex process of inquiry- and problem-based science education and whether computer simulations as instructional scaffolds...

  11. Adult education about atomic energy, 1945-1948, as a case study in science for society

    International Nuclear Information System (INIS)

    Wakeley, L.D.

    1984-01-01

    The sudden existence of atomic energy presented five challenges to science education for the adult public: (1) inform adults that atomic energy existed; (2) teach them its scientific basis, and potential peacetime uses; (3) correct mistaken impressions from erroneous media coverage; (4) promote civic literacy and participation in decision making; and (5) inform voters about pending atomic energy legislation. Newspapers, magazines, radio, and newsreels were the major sources of informal adult education, together reaching 93% of adults. But these informational media lacked educational structure, and failed to meet the citizenship needs of adults. During that pre-television era, discussion groups were a common form of social gathering and nonformal education. Books and pamphlets for these groups were essential to a system of adult science education. They provided data for the open exchange of opinions that is essential to the process of adult education. The League of Women Voters of the United States established a network of discussion groups nationwide, providing printed materials for all five purposes. These programs enjoyed mixed success, providing at least local pockets of public enlightenment. By 1948, the Atomic Energy Commission was facilitating public education, especially in private industry and the business sector

  12. Modern Publishing Approach of Journal of Astronomy & Earth Sciences Education

    Science.gov (United States)

    Slater, Timothy F.

    2015-01-01

    Filling a needed scholarly publishing avenue for astronomy education researchers and earth science education researchers, the Journal of Astronomy & Earth Sciences Education - JAESE published its first volume and issue in 2014. The Journal of Astronomy & Earth Sciences Education - JAESE is a scholarly, peer-reviewed scientific journal publishing original discipline-based education research and evaluation, with an emphasis of significant scientific results derived from ethical observations and systematic experimentation in science education and evaluation. International in scope, JAESE aims to publish the highest quality and timely articles from discipline-based education research that advance understanding of astronomy and earth sciences education and are likely to have a significant impact on the discipline or on policy. Articles are solicited describing both (i) systematic science education research and (ii) evaluated teaching innovations across the broadly defined Earth & space sciences education, including the disciplines of astronomy, climate education, energy resource science, environmental science, geology, geography, agriculture, meteorology, planetary sciences, and oceanography education. The publishing model adopted for this new journal is open-access and articles appear online in GoogleScholar, ERIC, and are searchable in catalogs of 440,000 libraries that index online journals of its type. Rather than paid for by library subscriptions or by society membership dues, the annual budget is covered by page-charges paid by individual authors, their institutions, grants or donors: This approach is common in scientific journals, but is relatively uncommon in education journals. Authors retain their own copyright. The journal is owned by the Clute Institute of Denver, which owns and operates 17 scholarly journals and currently edited by former American Astronomical Society Education Officer Tim Slater, who is an endowed professor at the University of Wyoming and

  13. Do Inquiring Minds Have Positive Attitudes? The Science Education of Preservice Elementary Teachers

    Science.gov (United States)

    Riegle-Crumb, Catherine; Morton, Karisma; Moore, Chelsea; Chimonidou, Antonia; Labrake, Cynthia; Kopp, Sacha

    2016-01-01

    Due to their potential impact on students' cognitive and non-cognitive outcomes, the negative attitudes towards science held by many elementary teachers are a critical issue that needs to be addressed. This study focuses on the science education of pre-service elementary teachers with the goal of improving their attitudes before they begin their professional lives as classroom teachers. Specifically, this study builds on a small body of research to examine whether exposure to inquiry-based science content courses that actively involve students in the collaborative process of learning and discovery can promote a positive change in attitudes towards science across several different dimensions. To examine this issue, surveys and administrative data were collected from over 200 students enrolled in the Hands on Science (HoS) program for pre-service teachers at the University of Texas at Austin, as well as more than 200 students in a comparison group enrolled in traditional lecture-style classes. Quantitative analyses reveal that after participating in HoS courses, pre-service teachers significantly increased their scores on scales measuring confidence, enjoyment, anxiety, and perceptions of relevance, while those in the comparison group experienced a decline in favorable attitudes to science. These patterns offer empirical support for the attitudinal benefits of inquiry-based instruction and have implications for the future learning opportunities available to students at all education levels. PMID:27667862

  14. Cultural, Social and Political Perspectives in Science Education

    DEFF Research Database (Denmark)

    This book presents a collection of critical thinking that concern cultural, social and political issues for science education in the Nordic countries. The chapter authors describe specific scenarios to challenge persisting views, interrogate frameworks and trouble contemporary approaches to resea......This book presents a collection of critical thinking that concern cultural, social and political issues for science education in the Nordic countries. The chapter authors describe specific scenarios to challenge persisting views, interrogate frameworks and trouble contemporary approaches...... to researching teaching and learning in science. Taking a point of departure in empirical examples from the Nordic countries the collection of work is taking a critical sideways glance at the Nordic education principles. Critical examinations target specifically those who are researching in the fields of science...... conditions and contexts in science education. The different chapters review debates and research in teacher education, school teaching and learning including when external stakeholders are involved. Even though the chapters are contextualized in Nordic settings there will be similarities and parallels...

  15. The Viability of Distance Education Science Laboratories.

    Science.gov (United States)

    Forinash, Kyle; Wisman, Raymond

    2001-01-01

    Discusses the effectiveness of offering science laboratories via distance education. Explains current delivery technologies, including computer simulations, videos, and laboratory kits sent to students; pros and cons of distance labs; the use of spreadsheets; and possibilities for new science education models. (LRW)

  16. Game based learning for computer science education

    NARCIS (Netherlands)

    Schmitz, Birgit; Czauderna, André; Klemke, Roland; Specht, Marcus

    2011-01-01

    Schmitz, B., Czauderna, A., Klemke, R., & Specht, M. (2011). Game based learning for computer science education. In G. van der Veer, P. B. Sloep, & M. van Eekelen (Eds.), Computer Science Education Research Conference (CSERC '11) (pp. 81-86). Heerlen, The Netherlands: Open Universiteit.

  17. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education; Search. Search. Resonance – Journal of Science Education. Title. Author. Keywords. Category. Fulltext. Submit. Resonance – Journal of Science Education. Current Issue : Vol. 23, Issue 4. Current Issue Volume 23 | Issue 4. April 2018. Home · Volumes & Issues ...

  18. Using design science in educational technology research projects

    Directory of Open Access Journals (Sweden)

    Susan M. Chard

    2017-12-01

    Full Text Available Design science is a research paradigm where the development and evaluation of a technology artefact is a key contribution. Design science is used in many domains and this paper draws on those domains to formulate a generic structure for design science research suitable for educational technology research projects. The paper includes guidelines for writing proposals using the design science research methodology for educational technology research and presents a generic research report structure. The paper presents ethical issues to consider in design science research being conducted in educational settings and contributes guidelines for assessment when the research contribution involves the creation of a technology artefact.

  19. Joe L. Kincheloe: Embracing criticality in science education

    Science.gov (United States)

    Bayne, Gillian U.

    2009-09-01

    This article reviews significant contributions made by Joe L. Kincheloe to critical research in science education, especially through a multimethodological, multitheoretical, and multidisciplinary informed lens that incorporates social, cultural, political, economic, and cognitive dynamics—the bricolage. Kincheloe's ideas provide for a compelling understanding of, and insights into, the forces that shape the intricacies of teaching and learning science and science education. They have implications in improving science education policies, in developing actions that challenge and cultivate the intellect while operating in ways that are more understanding of difference and are socially just.

  20. Defining Integrated Science Education and Putting It to Test

    OpenAIRE

    Åström, Maria

    2008-01-01

    The thesis is made up by four studies, on the comprehensive theme of integrated and subject-specific science education in Swedish compulsory school. A literature study on the matter is followed by an expert survey, then a case study and ending with two analyses of students' science results from PISA 2003 and PISA 2006. The first two studies explore similarities and differences between integrated and subject-specific science education, i.e. Science education and science taught as Biology, Chem...

  1. Global reproduction and transformation of science education

    Science.gov (United States)

    Tobin, Kenneth

    2011-03-01

    Neoliberalism has spread globally and operates hegemonically in many fields, including science education. I use historical auto/ethnography to examine global referents that have mediated the production of contemporary science education to explore how the roles of teachers and learners are related to macrostructures such as neoliberalism and derivative sensibilities, including standards, competition, and accountability systems, that mediate enacted curricula. I investigate these referents in relation to science education in two geographically and temporally discrete contexts Western Australia in the 1960s and 1970s and more recently in an inner city high school in the US. In so doing I problematize some of the taken for granted aspects of science education, including holding teachers responsible for establishing and maintaining control over students, emphasizing competition between individuals and between collectives such as schools, school districts and countries, and holding teachers and school leaders accountable for student achievement.

  2. Science Education at Arts-Focused Colleges

    Science.gov (United States)

    Oswald, W. Wyatt; Ritchie, Aarika; Murray, Amy Vashlishan; Honea, Jon

    2016-01-01

    Many arts-focused colleges and universities in the United States offer their undergraduate students coursework in science. To better understand the delivery of science education at this type of institution, this article surveys the science programs of forty-one arts-oriented schools. The findings suggest that most science programs are located in…

  3. Science Education Research vs. Physics Education Research: A Structural Comparison

    Science.gov (United States)

    Akarsu, Bayram

    2010-01-01

    The main goal of this article is to introduce physics education research (PER) to researchers in other fields. Topics include discussion of differences between science education research (SER) and physics education research (PER), physics educators, research design and methodology in physics education research and current research traditions and…

  4. Scientists and Science Education: Working at the Interface

    Science.gov (United States)

    DeVore, E. K.

    2004-05-01

    "Are we alone?" "Where did we come from?" "What is our future?" These questions lie at the juncture of astronomy and biology: astrobiology. It is intrinsically interdisciplinary in its study of the origin, evolution and future of life on Earth and beyond. The fundamental concepts of origin and evolution--of both living and non-living systems--are central to astrobiology, and provide powerful themes for unifying science teaching, learning, and appreciation in classrooms and laboratories, museums and science centers, and homes. Research scientists play a key role in communicating the nature of science and joy of scientific discovery with the public. Communicating the scientific discoveries with the public brings together diverse professionals: research scientists, graduate and undergraduate faculty, educators, journalists, media producers, web designers, publishers and others. Working with these science communicators, research scientists share their discoveries through teaching, popular articles, lectures, broadcast and print media, electronic publication, and developing materials for formal and informal education such as textbooks, museum exhibits and documentary television. There's lots of activity in science communication. Yet, the NSF and NASA have both identified science education as needing improvement. The quality of schools and the preparation of teachers receive national attention via "No Child Left Behind" requirements. The number of students headed toward careers in science, technology, engineering and mathematics (STEM) is not sufficient to meet national needs. How can the research community make a difference? What role can research scientists fulfill in improving STEM education? This talk will discuss the interface between research scientists and science educators to explore effective roles for scientists in science education partnerships. Astronomy and astrobiology education and outreach projects, materials, and programs will provide the context for

  5. Story - Science - Solutions: A new middle school science curriculum that promotes climate-stewardship

    Science.gov (United States)

    Cordero, E.; Centeno Delgado, D. C.

    2017-12-01

    Over the last five years, Green Ninja has been developing educational media to help motivate student interest and engagement around climate science and solutions. The adoption of the Next Generation Science Standards (NGSS) offers a unique opportunity where schools are changing both what they teach in a science class and how they teach. Inspired by the new emphasis in NGSS on climate change, human impact and engineering design, Green Ninja developed a technology focused, integrative, and yearlong science curriculum (6th, 7th and 8th grade) focused broadly around solutions to environmental problems. The use of technology supports the development of skills valuable for students, while also offering real-time metrics to help measure both student learning and environmental impact of student actions. During the presentation, we will describe the design philosophy around our middle school curriculum and share data from a series of classes that have created environmental benefits that transcend the traditional classroom. The notion that formal education, if done correctly, can be leveraged as a viable climate mitigation strategy will be discussed.

  6. Space Science Education Resource Directory

    Science.gov (United States)

    Christian, C. A.; Scollick, K.

    The Office of Space Science (OSS) of NASA supports educational programs as a by-product of the research it funds through missions and investigative programs. A rich suite of resources for public use is available including multimedia materials, online resources, hardcopies and other items. The OSS supported creation of a resource catalog through a group lead by individuals at STScI that ultimately will provide an easy-to-use and user-friendly search capability to access products. This paper describes the underlying architecture of that catalog, including the challenge to develop a system for characterizing education products through appropriate metadata. The system must also be meaningful to a large clientele including educators, scientists, students, and informal science educators. An additional goal was to seamlessly exchange data with existing federally supported educational systems as well as local systems. The goals, requirements, and standards for the catalog will be presented to illuminate the rationale for the implementation ultimately adopted.

  7. Earth Science Education in Morocco

    Science.gov (United States)

    Bouabdelli, Mohamed

    1999-05-01

    The earth sciences are taught in twelve universities in Morocco and in three other institutions. In addition there are three more earth science research institutions. Earth science teaching has been taking place since 1957. The degree system is a four-year degree, split into two two-year blocks and geology is taught within the geology-biology programme for the first part of the degree. 'Classical' geology is taught in most universities, although applied geology degrees are also on offer in some universities. Recently-formed technical universities offer a more innovative approach to Earth Science Education. Teaching is in French, although school education is in Arabic. There is a need for a reform of the curriculum, although a lead is being taken by the technical universities. A new geological mapping programme promises new geological and mining discoveries in the country and prospects of employment for geology graduates.

  8. report | 1-Overview | 5-Publications | Indian Academy of Sciences

    Indian Academy of Sciences (India)

    Report on University Science Education. 1. Introduction. In recent years the Academy has felt increasingly concerned with the state of university education in science in the country. It has been widely realized that without a proper base in education it will not be possible to promote progress in science to attain the excellence ...

  9. Preparing Science Teachers: Strong Emphasis on Science Content Course Work in a Master's Program in Education

    Science.gov (United States)

    Ajhar, Edward A.; Blackwell, E.; Quesada, D.

    2010-05-01

    In South Florida, science teacher preparation is often weak as a shortage of science teachers often prompts administrators to assign teachers to science classes just to cover the classroom needs. This results is poor preparation of students for college science course work, which, in turn, causes the next generation of science teachers to be even weaker than the first. This cycle must be broken in order to prepare better students in the sciences. At St. Thomas University in Miami Gardens, Florida, our School of Science has teamed with our Institute for Education to create a program to alleviate this problem: A Master of Science in Education with a Concentration in Earth/Space Science. The Master's program consists of 36 total credits. Half the curriculum consists of traditional educational foundation and instructional leadership courses while the other half is focused on Earth and Space Science content courses. The content area of 18 credits also provides a separate certificate program. Although traditional high school science education places a heavy emphasis on Earth Science, this program expands that emphasis to include the broader context of astronomy, astrophysics, astrobiology, planetary science, and the practice and philosophy of science. From this contextual basis the teacher is better prepared to educate and motivate middle and high school students in all areas of the physical sciences. Because hands-on experience is especially valuable to educators, our program uses materials and equipment including small optical telescopes (Galileoscopes), several 8-in and 14-in Celestron and Meade reflectors, and a Small Radio Telescope installed on site. (Partial funding provided by the US Department of Education through Minority Science and Engineering Improvement Program grant P120A050062.)

  10. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Kathy Ceceri. Articles written in Resonance – Journal of Science Education. Volume 16 Issue 9 September 2011 pp 879-880 Personal Reflections. Five Things I Learned from Richard Feynman About Science Education · Kathy Ceceri · More Details Fulltext PDF ...

  11. Science Students and the Social Sciences: Strange Bedfellows?

    Science.gov (United States)

    Yeong, Foong May

    2014-01-01

    With various internet resources available to students, the main aim of a good university education today should not merely be to provide students with content knowledge, but rather to equip them with essential skills necessary to develop into lifelong learners. Among science educators, repeated calls have been made to promote a more holistic…

  12. Cultural, Social and Political Perspectives in Science Education

    DEFF Research Database (Denmark)

    conditions and contexts in science education. The different chapters review debates and research in teacher education, school teaching and learning including when external stakeholders are involved. Even though the chapters are contextualized in Nordic settings there will be similarities and parallels...... that will be informative to the international science education research community.......This book presents a collection of critical thinking that concern cultural, social and political issues for science education in the Nordic countries. The chapter authors describe specific scenarios to challenge persisting views, interrogate frameworks and trouble contemporary approaches...

  13. Solar Science Digital Comic Series that promotes Science Literacy with Upper Elementary and Middle School Students

    Science.gov (United States)

    Kellagher, E.; Scherrer, D. K.; Buhr Sullivan, S. M.

    2013-12-01

    The SDO instruments (EVE, AIA and HMI) teams have created a digital comic book series for upper elementary and middle school students featuring solar science aficionados Camilla and Colours, 2 cool mascot characters. These comics may be printed or read on mobile devices and are available as a free download. Many teachers are looking for resources to use with their students via the IPad so our collaboration helps supply teachers with a great resource that teaches about solar concepts and helps dispel solar misconceptions. It doesn't come as a surprise to a lot of us, but a recent study confirms what's been theorized for years: Comics are a stronger learning tool than text books. Image-based storytelling is a powerful educational tool. Comics are probably more able to combine story and information simultaneously, more effectively and seamlessly, than almost any other medium. There's also a great potential to incorporate interactive elements into digital versions, so that more information can be presented on certain items on a page. For example, videos, animations and even historic footage and audio can be embedded into digital comics. Really, the possibilities are limited only by the creators' imaginations as to how to find new ways to create a rich experience that is interesting to explore for students. We are excited to unveil this new series of solar science comics that promotes science literacy with upper elementary and middle school students.

  14. Sputnik's Impact on Science Education in America

    Science.gov (United States)

    Holbrow, Charles H.

    2007-04-01

    The launch of Sputnik, the world's first artificial Earth orbiting satellite, by the Soviet Union on October 4, 1957 was a triggering event. Before Sputnik pressure had been rising to mobilize America's intellectual resources to be more effective and useful in dealing with the Cold War. Sputnik released that pressure by stirring up a mixture of American hysteria, wounded self-esteem, fears of missile attacks, and deep questioning of the intellectual capabilities of popular democratic society and its educational system. After Sputnik the federal government took several remarkable actions: President Eisenhower established the position of Presidential Science Advisor; the House and the Senate reorganized their committee structures to focus on science policy; Congress created NASA -- the National Aeronautics and Space Agency -- and charged it to create a civilian space program; they tripled funding for the National Science Foundation to support basic research but also to improve science education and draw more young Americans into science and engineering; and they passed the National Defense Education Act which involved the federal government to an unprecedented extent with all levels of American education. I will describe some pre-Sputnik pressures to change American education, review some important effects of the subsequent changes, and talk about one major failure of change fostered by the national government.

  15. Derivation and Implementation of a Model Teaching the Nature of Science Using Informal Science Education Venues

    Science.gov (United States)

    Spector, Barbara S.; Burkett, Ruth; Leard, Cyndy

    2012-01-01

    This paper introduces a model for using informal science education venues as contexts within which to teach the nature of science. The model was initially developed to enable university education students to teach science in elementary schools so as to be consistent with "National Science Education Standards" (NSES) (1996) and "A Framework for…

  16. The Inspiring Science Education project and the resources for HEP analysis by university students

    International Nuclear Information System (INIS)

    Fassouliotis, Dimitris; Kourkoumelis, Christine; Vourakis, Stylianos

    2016-01-01

    The Inspiring Science Education outreach project has been running for more than two years, creating a large number of inquiry based educational resources for high-school teachers and students. Its goal is the promotion of science education in schools though new methods built on the inquiry based education techniques, involving large consortia of European partners and implementation of large-scale pilots in schools. Recent hands-on activities, developing and testing the above mentioned innovative applications are reviewed. In general, there is a lack for educational scenaria and laboratory courses earmarked for more advanced, namely university, students. At the University of Athens for the last four years, the HYPATIA on-line event analysis tool has been used as a lab course for fourth year undergraduate physics students, majoring in HEP. Up to now, the course was limited to visual inspection of a few tens of ATLAS events. Recently the course was enriched with additional analysis exercises, which involve large samples of events. The students through a user friendly interface can analyse the samples and optimize the cut selection in order to search for new physics. The implementation of this analysis is described

  17. PROGNOSIS OF VISUALIZATION USAGE IN THE SCIENCE EDUCATION PROCESS

    OpenAIRE

    Bilbokaite, Renata

    2016-01-01

    Future education depends on many external exogenous factors - society evolution, technologic progress, teachers’ opinion and their ability to organize the education process. Science education is difficult for many students but the progress of the society definitely correlated with achievements of science. This highlights the importance of teaching biology, chemistry, physics, geography and mathematics at school. Visualization helps students to learn science education but at the moment teacher...

  18. Education and Training in Forensic Science: A Guide for Forensic Science Laboratories, Educational Institutions, and Students. Special Report.

    Science.gov (United States)

    US Department of Justice, 2004

    2004-01-01

    Forensic science provides scientific and foundational information for investigators and courts, and thus plays a crucial role in the criminal justice system. This guide was developed through the work of the Technical Working Group on Education and Training in Forensic Science (TWGED) to serve as a reference on best education and training practices…

  19. Resonance journal of science education

    Indian Academy of Sciences (India)

    Resonance journal of science education. May 2012 Volume 17 Number 5. SERIES ARTICLES. 436 Dawn of Science. The Quest for Power. T Padmanabhan. GENERAL ARTICLES. 441 Bernoulli Runs Using 'Book Cricket' to Evaluate. Cricketers. Anand Ramalingam. 454 Wilhelm Ostwald, the Father of Physical Chemistry.

  20. Resonance journal of science education

    Indian Academy of Sciences (India)

    Resonance journal of science education. February 2012 Volume 17 Number 2. SERIES ARTICLES. 106 Dawn of Science. Calculus is Developed in Kerala. T Padmanabhan. GENERAL ARTICLES. 117 Willis H Carrier: Father of Air Conditioning. R V Simha. 139 Refrigerants For Vapour Compression Refrigeration. Systems.

  1. In Brief: Science teaching certificate

    Science.gov (United States)

    Showstack, Randy

    2008-11-01

    More than 200 educators will receive fellowships over the next 5 years to participate in NASA's Endeavor Science Teaching Certificate Project, the agency announced on 14 November. Through workshops, online and on-site graduate courses, and NASA educational materials, the project will expose educators to NASA science and engineering and support them in translating the information for use in classrooms. ``Through the program, educators will learn to deliver cutting-edge science into the classroom, promoting science, technology, engineering, and mathematics education,'' according to Joyce Winterton, assistant administrator for education at NASA Headquarters, in Washington, D. C. Project fellows will earn a certificate from Teachers College Innovations at Teachers College, Columbia University, New York, and graduate credit from other institutional partners. For more information, visit http://education.nasa.gov/home/index.html.

  2. Joint Science Education Project: Learning about polar science in Greenland

    Science.gov (United States)

    Foshee Reed, Lynn

    2014-05-01

    The Joint Science Education Project (JSEP) is a successful summer science and culture opportunity in which students and teachers from the United States, Denmark, and Greenland come together to learn about the research conducted in Greenland and the logistics involved in supporting the research. They conduct experiments first-hand and participate in inquiry-based educational activities alongside scientists and graduate students at a variety of locations in and around Kangerlussuaq, Greenland, and on the top of the ice sheet at Summit Station. The Joint Committee, a high-level forum involving the Greenlandic, Danish and U.S. governments, established the Joint Science Education Project in 2007, as a collaborative diplomatic effort during the International Polar Year to: • Educate and inspire the next generation of polar scientists; • Build strong networks of students and teachers among the three countries; and • Provide an opportunity to practice language and communication skills Since its inception, JSEP has had 82 student and 22 teacher participants and has involved numerous scientists and field researchers. The JSEP format has evolved over the years into its current state, which consists of two field-based subprograms on site in Greenland: the Greenland-led Kangerlussuaq Science Field School and the U.S.-led Arctic Science Education Week. All travel, transportation, accommodations, and meals are provided to the participants at no cost. During the 2013 Kangerlussuaq Science Field School, students and teachers gathered data in a biodiversity study, created and set geo- and EarthCaches, calculated glacial discharge at a melt-water stream and river, examined microbes and tested for chemical differences in a variety of lakes, measured ablation at the edge of the Greenland Ice Sheet, and learned about fossils, plants, animals, minerals and rocks of Greenland. In addition, the students planned and led cultural nights, sharing food, games, stories, and traditions of

  3. LudusScope: Accessible Interactive Smartphone Microscopy for Life-Science Education.

    Science.gov (United States)

    Kim, Honesty; Gerber, Lukas Cyrill; Chiu, Daniel; Lee, Seung Ah; Cira, Nate J; Xia, Sherwin Yuyang; Riedel-Kruse, Ingmar H

    2016-01-01

    For centuries, observational microscopy has greatly facilitated biology education, but we still cannot easily and playfully interact with the microscopic world we see. We therefore developed the LudusScope, an accessible, interactive do-it-yourself smartphone microscopy platform that promotes exploratory stimulation and observation of microscopic organisms, in a design that combines the educational modalities of build, play, and inquire. The LudusScope's touchscreen and joystick allow the selection and stimulation of phototactic microorganisms such as Euglena gracilis with light. Organismal behavior is tracked and displayed in real time, enabling open and structured game play as well as scientific inquiry via quantitative experimentation. Furthermore, we used the Scratch programming language to incorporate biophysical modeling. This platform is designed as an accessible, low-cost educational kit for easy construction and expansion. User testing with both teachers and students demonstrates the educational potential of the LudusScope, and we anticipate additional synergy with the maker movement. Transforming observational microscopy into an interactive experience will make microbiology more tangible to society, and effectively support the interdisciplinary learning required by the Next Generation Science Standards.

  4. Sensory Science Education

    DEFF Research Database (Denmark)

    Otrel-Cass, Kathrin

    2018-01-01

    little note of the body-mind interactions we have with the material world. Utilizing examples from primary schools, it is argued that a sensory pedagogy in science requires a deliberate sensitization and validation of the senses’ presence and that a sensor pedagogy approach may reveal the unique ways...... in how we all experience the world. Troubling science education pedagogy is therefore also a reconceptualization of who we are and how we make sense of the world and the acceptance that the body-mind is present, imbalanced and complex....

  5. Training Teachers for the Knowledge Society: Social Media in Science Education

    Directory of Open Access Journals (Sweden)

    Dana Crăciun

    2016-01-01

    Full Text Available Internet and social media (SM have revolutionized the way scientific information is disseminated within our society. Nowadays professional and/or social networks are increasingly used for learning and informal science education successfully supplements the formal one at alleducational levels. Students become addicted to technology from an early age and consistently use SM for communication purposes and personal image. In this context, it is reasonable to assume that the use of Web 2.0 and SM can be successfully integrated in formal science education. This integration, however, depends mainly on how teachers design the learning activities using Web 2.0 and SM, on their digital skills and expertise, on their attitude towards using SM to communicate for personal and professional purposes and to obtain educational benefits. In this study we start from the premise that a positive attitude of future science teachers towards ICT integration and theirwillingness to use SM in their educational communication can be formed in the initial teacher training program, being a crucial factor for the effective use of such tools in education in the future. We detail two activities and analyze them from the SM and Web 2.0 integration perspectives. The first activity is an extracurricular one in which students had to create a digital story and present it to secondary school children in class. The second activity is a curricular one aimed to promote a project-based learning and based on making a comic about an optical phenomenon taught in secondary school. We present and discuss these activities to emphasize how the skills that targetscience teaching using ICT and SM can be developed.

  6. Discovering Science Education in the USA

    Science.gov (United States)

    Teaching Science, 2014

    2014-01-01

    Science is amazing for many reasons. One of them is its immeasurable size as a subject, and the breadth of its application. From nanotech to astrophysics, from our backyards to the global arena, science links everything and everyone on Earth. Our understanding of science--and science education--needs to be just as diverse and all-encompassing.…

  7. The paradox of un/making science people: practicing ethico-political hesitations in science education

    Science.gov (United States)

    Wallace, Maria F. G.

    2018-03-01

    Over the years neoliberal ideology and discourse have become intricately connected to making science people. Science educators work within a complicated paradox where they are obligated to meet neoliberal demands that reinscribe dominant, hegemonic assumptions for producing a scientific workforce. Whether it is the discourse of school science, processes of being a scientist, or definitions of science particular subjects are made intelligible as others are made unintelligible. This paper resides within the messy entanglements of feminist poststructural and new materialist perspectives to provoke spaces where science educators might enact ethicopolitical hesitations. By turning to and living in theory, the un/making of certain kinds of science people reveals material effects and affects. Practicing ethicopolitical hesitations prompt science educators to consider beginning their work from ontological assumptions that begin with abundance rather than lack.

  8. Principles of Professionalism for Science Educators. National Science Teachers Association Position Statement

    Science.gov (United States)

    National Science Teachers Association (NJ1), 2010

    2010-01-01

    Science educators play a central role in educating, inspiring, and guiding students to become responsible, scientifically literate citizens. Therefore, teachers of science must uphold the highest ethical standards of the profession to earn and maintain the respect, trust, and confidence of students, parents, school leaders, colleagues, and other…

  9. Family Experiences, the Motivation for Science Learning and Science Achievement of Different Learner Groups

    Science.gov (United States)

    Schulze, Salomé; Lemmer, Eleanor

    2017-01-01

    Science education is particularly important for both developed and developing countries to promote technological development, global economic competition and economic growth. This study explored the relationship between family experiences, the motivation for science learning, and the science achievement of a group of Grade Nine learners in South…

  10. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Bala Iyer. Articles written in Resonance – Journal of Science Education. Volume 21 Issue 3 March 2016 pp 203-205 Editorial. Editorial · Bala Iyer · More Details Fulltext PDF. Resonance – Journal of Science Education. Current Issue : Vol. 23, Issue 4. Current ...

  11. Some Aspects of Science Education in European Context

    Science.gov (United States)

    Naumescu, Adrienne Kozan; Pasca, Roxana-Diana

    2008-01-01

    Some up-to-date problems in science education in European context are treated in this paper. The characteristics of science education across Europe are presented. Science teachers' general competencies are underlined. An example of problem-solving as teaching method in chemistry is studied in knowledge based society. Transforming teacher practice…

  12. Development and Implementation of Science and Technology Ethics Education Program for Prospective Science Teachers

    Science.gov (United States)

    Rhee, Hyang-yon; Choi, Kyunghee

    2014-05-01

    The purposes of this study were (1) to develop a science and technology (ST) ethics education program for prospective science teachers, (2) to examine the effect of the program on the perceptions of the participants, in terms of their ethics and education concerns, and (3) to evaluate the impact of the program design. The program utilized problem-based learning (PBL) which was performed as an iterative process during two cycles. A total of 23 and 29 prospective teachers in each cycle performed team activities. A PBL-based ST ethics education program for the science classroom setting was effective in enhancing participants' perceptions of ethics and education in ST. These perceptions motivated prospective science teachers to develop and implement ST ethics education in their future classrooms. The change in the prospective teachers' perceptions of ethical issues and the need for ethics education was greater when the topic was controversial.

  13. History, Philosophy and Sociology of Science in Science Education: Results from the Third International Mathematics and Science Study

    Science.gov (United States)

    Wang, Hsingchi A.; Sshmidt, William H.

    Throughout the history of enhancing the public scientific literacy, researchers have postulated that since every citizen is expected to have informal opinions on the relationships among government, education, and issues of scientific research and development, it is imperative that appreciation of the past complexities of science and society and the nature of scientific knowledge be a part of the education of both scientists and non-scientists. HPSS inclusion has been found to be an effective way to reach the goal of enhancing science literacy for all citizens. Although reports stated that HPSS inclusion is not a new educational practice in other part of the world, nevertheless, no large scale study has ever been attempted to report the HPSS educational conditions around the world. This study utilizes the rich data collected by TIMSS to unveil the current conditions of HPSS in the science education of about forty TIMSS countries. Based on the analysis results, recommendations to science educators of the world are provided.

  14. Motivations and Barriers in Promoting Preschool Education

    Science.gov (United States)

    Küçükturan, A. Güler; Akbaba Altun, Sadegül

    2017-01-01

    This study is designed to explore the reasons for sending and not sending preschool age children to preschools at an early age by exploring the motivations for and barriers towards promoting preschool education in Turkey. It aimed to determine various stakeholders' perceptions, attitudes, and knowledge related to preschool education in order to…

  15. African Indigenous science in higher education in Uganda

    Science.gov (United States)

    Akena Adyanga, Francis

    This study examines African Indigenous Science (AIS) in higher education in Uganda. To achieve this, I use anticolonial theory and Indigenous knowledge discursive frameworks to situate the subjugation of Indigenous science from the education system within a colonial historical context. These theories allow for a critical examination of the intersection of power relations rooted in the politics of knowledge production, validation, and dissemination, and how this process has become a systemic and complex method of subjugating one knowledge system over the other. I also employ qualitative and autoethnographic research methodologies. Using a qualitative research method, I interviewed 10 students and 10 professors from two universities in Uganda. My research was guided by the following key questions: What is African Indigenous Science? What methodology would help us to indigenize science education in Uganda? How can we work with Indigenous knowledge and anticolonial theoretical discursive frameworks to understand and challenge the dominance of Eurocentric knowledge in mainstream education? My research findings revealed that AIS can be defined in multiple ways, in other words, there is no universal definition of AIS. However, there were some common elements that my participants talked about such as: (a) knowledge by Indigenous communities developed over a long period of time through a trial and error approach to respond to the social, economic and political challenges of their society. The science practices are generational and synergistic with other disciplines such as history, spirituality, sociology, anthropology, geography, and trade among others, (b) a cumulative practice of the use, interactions with and of biotic and abiotic organism in everyday life for the continued existence of a community in its' totality. The research findings also indicate that Indigenous science is largely lacking from Uganda's education curriculum because of the influence of colonial and

  16. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Deepak Nandi. Articles written in Resonance – Journal of Science Education. Volume 23 Issue 2 February 2018 pp 197-217 General Article. Thymus: The site for Development of Cellular Immunity · Shamik Majumdar Sanomy Pathak Deepak Nandi · More Details ...

  17. Global Reproduction and Transformation of Science Education

    Science.gov (United States)

    Tobin, Kenneth

    2011-01-01

    Neoliberalism has spread globally and operates hegemonically in many fields, including science education. I use historical auto/ethnography to examine global referents that have mediated the production of contemporary science education to explore how the roles of teachers and learners are related to macrostructures such as neoliberalism and…

  18. NASA Earth Science Education Collaborative

    Science.gov (United States)

    Schwerin, T. G.; Callery, S.; Chambers, L. H.; Riebeek Kohl, H.; Taylor, J.; Martin, A. M.; Ferrell, T.

    2016-12-01

    The NASA Earth Science Education Collaborative (NESEC) is led by the Institute for Global Environmental Strategies with partners at three NASA Earth science Centers: Goddard Space Flight Center, Jet Propulsion Laboratory, and Langley Research Center. This cross-organization team enables the project to draw from the diverse skills, strengths, and expertise of each partner to develop fresh and innovative approaches for building pathways between NASA's Earth-related STEM assets to large, diverse audiences in order to enhance STEM teaching, learning and opportunities for learners throughout their lifetimes. These STEM assets include subject matter experts (scientists, engineers, and education specialists), science and engineering content, and authentic participatory and experiential opportunities. Specific project activities include authentic STEM experiences through NASA Earth science themed field campaigns and citizen science as part of international GLOBE program (for elementary and secondary school audiences) and GLOBE Observer (non-school audiences of all ages); direct connections to learners through innovative collaborations with partners like Odyssey of the Mind, an international creative problem-solving and design competition; and organizing thematic core content and strategically working with external partners and collaborators to adapt and disseminate core content to support the needs of education audiences (e.g., libraries and maker spaces, student research projects, etc.). A scaffolded evaluation is being conducted that 1) assesses processes and implementation, 2) answers formative evaluation questions in order to continuously improve the project; 3) monitors progress and 4) measures outcomes.

  19. Ten Decades of the Science Textbook: A Revealing Mirror of Science Education Past and Present.

    Science.gov (United States)

    Lynch, Paddy P.; Strube, Paul D.

    1985-01-01

    Indicates that trends in science education can be examined by examining science textbook content. Suggests that a historical overview is important and pertinent to contemporary thinking and contemporary problems in science education. (Author/JN)

  20. Promoting Female Students' Learning Motivation towards Science by Exercising Hands-On Activities

    Science.gov (United States)

    Wen-jin, Kuo; Chia-ju, Liu; Shi-an, Leou

    2012-01-01

    The purpose of this study is to design different hands-on science activities and investigate which activities could better promote female students' learning motivation towards science. This study conducted three types of science activities which contains nine hands-on activities, an experience scale and a learning motivation scale for data…

  1. Educational needs of family physicians in the domains of health and conformity with continuing education in Fasa University of Medical Sciences

    Directory of Open Access Journals (Sweden)

    NAHID ZARIF SANAIEY

    2015-04-01

    Full Text Available Introduction: Assessment and prioritization are the first steps of planning. According to the family physician’s idea, evaluating programs in order to improve them is one of the necessities of promoting quality and increases the efficiency and effectiveness of continuing education. This study aimed to determine family physicians’ educational needs regarding health and its applicability in continuous medical education in Fasa University of Medical Sciences. Methods: In this cross-sectional study, viewpoints of 45 general physicians working at Fasa University of Medical Sciences in 2013 were studied. Samples were selected through census. Data collection was done using a researcher-made questionnaire using 10-point Likert scale and a checklist with Delphi technique. Content validity of the questionnaire and its reliability were confirmed by the experts’ opinion and Cronbach’s alpha of 80%. The data were analyzed through SPSS software version 16, using both descriptive and inferential statistics (mean and standard deviation, standard score (SQ, t-test, ANOVAs. A significance level of 0.05. The most educational conformity with continuing education was in the diseases area (topic 27%, content 37%. In the areas of environmental and professional health and health education, compliance was zero. Conclusions: The physicians stated that mental health was the first educational need and environmental and professional health was the last one. According to the results, proper continuing medical programs should be coordinated with educational needs.

  2. Towards Science Education for all: Teacher Support for Female ...

    African Journals Online (AJOL)

    Towards Science Education for all: Teacher Support for Female Pupils in the Zimbabwean Science Class. ... Annals of Modern Education ... One hundred female pupils studying sciences at either Ordinary or Advanced level, and 10 science teachers from 10 selected secondary schools in one province in Zimbabwe, ...

  3. What are the implications of implementation science for medical education?

    Directory of Open Access Journals (Sweden)

    David W. Price

    2015-04-01

    Full Text Available Background: Derived from multiple disciplines and established in industries outside of medicine, Implementation Science (IS seeks to move evidence-based approaches into widespread use to enable improved outcomes to be realized as quickly as possible by as many as possible. Methods: This review highlights selected IS theories and models, chosen based on the experience of the authors, that could be used to plan and deliver medical education activities to help learners better implement and sustain new knowledge and skills in their work settings. Results: IS models, theories and approaches can help medical educators promote and determine their success in achieving desired learner outcomes. We discuss the importance of incorporating IS into the training of individuals, teams, and organizations, and employing IS across the medical education continuum. Challenges and specific strategies for the application of IS in educational settings are also discussed. Conclusions: Utilizing IS in medical education can help us better achieve changes in competence, performance, and patient outcomes. IS should be incorporated into curricula across disciplines and across the continuum of medical education to facilitate implementation of learning. Educators should start by selecting, applying, and evaluating the teaching and patient care impact one or two IS strategies in their work.

  4. Engineering and science education for nuclear power

    International Nuclear Information System (INIS)

    Mautner-Markhof, F.

    1988-01-01

    Experience has shown that one of the critical conditions for the successful introduction of a nuclear power programme is the availability of sufficient numbers of personnel having the required education and experience qualifications. For this reason, the introduction of nuclear power should be preceded by a thorough assessment of the relevant capabilities of the industrial and education/training infrastructures of the country involved. The IAEA assists its Member States in a variety of ways in the development of infrastructures and capabilities for engineering and science education for nuclear power. Types of assistance provided by the IAEA to Member States include: Providing information in connection with the establishment or upgrading of academic and non-academic engineering and science education programmes for nuclear power (on the basis of curricula recommended in the Agency's Guidebook on engineering and science education for nuclear power); Expert assistance in setting up or upgrading laboratories and other teaching facilities; Assessing the capabilities and interest of Member States and their institutions/organizations for technical co-operation among countries, especially developing ones, in engineering and science education, as well as its feasibility and usefulness; Preparing and conducting nuclear specialization courses (e.g. on radiation protection) in various Member States

  5. Can Technology Help Promote Equality of Educational Opportunities?

    Science.gov (United States)

    Jacob, Brian; Berger, Dan; Hart, Cassandra; Loeb, Susanna

    2016-01-01

    This chapter assesses the potential for several prominent technological innovations to promote equality of educational opportunities. We review the history of technological innovations in education and describe several prominent innovations, including intelligent tutoring, blended learning, and virtual schooling.

  6. Student Reported Growth: Success Story of a Master of Science in Education Learning Community Program

    Directory of Open Access Journals (Sweden)

    Sharon Kabes, EdD

    2010-08-01

    Full Text Available Quantitative and qualitative data collected from students who have completed a Master of Science in Education Learning Community Program support the effectiveness of the learning community model in facilitating professional growth and transformation. Instructors model constructivist theory. Peer review, collaboration, and reflective analysis of theory and practice are essential components of the model. The program facilitates growth as educators build their understanding about teaching and learning, transfer their ideas and processes into the classroom, and take an active leadership role in promoting change in classrooms, school, and larger community.

  7. International cooperation for promotion of nuclear science and engineering research

    International Nuclear Information System (INIS)

    Shibata, Toshikazu; Sugiyama, Kazusuke; Nakazawa, Masaharu; Katoh, Toshio; Kimura, Itsuro.

    1993-01-01

    For promotion of nuclear science and engineering research, examinations were made on the possibilities and necessary measures to extend joint research at international level. The present article is a summary of the reports of investigations performed during FY 1986 through 1991 by the Special Committee of the AESJ for Feasibility Study on International Cooperation for Promotion of Nuclear Science and Engineering Research, under contract with Science and Technology Agency of Japan. Background information was collected on the present status of scientific research facilities in US, European and Asian countries on one hand, and on the expectations and prospects of Japanese scientists on the other hand. Based on the analysis of these data, some measures necessary to expand the international cooperation were proposed. It was emphasized that international joint research on a reciprocal basis would be effective in order to strengthen the technological basis of peaceful uses of nuclear energy. Problems to be solved for the new development were also discussed. (author)

  8. The Value of Supplementing Science Education with Outdoor Instruction for Sixth Grade Students

    Science.gov (United States)

    Jackson, Devin Joseph Guilford

    Science education is moving away from memorization of facts to inquiry based learning. Adding outdoor instruction can be an effective way to promote this exploratory method of learning. The limited number of empirical studies available have shown significant increase in attitudes and learning with outdoor science instruction. An eight-week quasi-experimental teacher research study was conducted to further this research and assess the value of schoolyard science instruction on student engagement and learning. Participants were 60 students in two sixth grade middle school Earth Science classes. A crossover study design was used with two classes alternating as experimental and control groups. NASA Global Precipitation Measurement mission curriculum was used (NASA/GPM, 2011). While the results did not show a clear increase in student engagement and content knowledge, the study adds to the body of knowledge on outdoor instruction and identifies limitations to consider in future studies.

  9. Promoting water hydraulics in Malaysia: A green educational approach

    Science.gov (United States)

    Yusof, Ahmad Anas; Zaili, Zarin Syukri; Hassan, Siti Nor Habibah; Tuan, Tee Boon; Saadun, Mohd Noor Asril; Ibrahim, Mohd Qadafie

    2014-10-01

    In promoting water hydraulics in Malaysia, this paper presents research development of water hydraulics educational training system for secondary and tertiary levels in Malaysia. Water hydraulics trainer with robotic attachment has been studied in order to promote the usefulness of such educational tools in promoting sustainability and green technology in the country. The trainer is being developed in order to allow constructive curriculum development and continuous marketing research for the effectiveness and usefulness of using water in hydraulic power trainer. The research on water-based hydraulic trainer is now possible with the current development in water hydraulics technology.

  10. Science in early childhood education

    DEFF Research Database (Denmark)

    Broström, Stig

    2015-01-01

    Bildung Didaktik, and a learning approach based on a Vygotskian cultural-historical activity theory. A science-oriented dynamic contextual didactical model was developed as a tool for educational thinking and planning. The article presents five educational principles for a preschool science Didaktik......Based on an action research project with 12 preschools in a municipality north of Copenhagen the article investigates and takes a first step in order to create a preschool science Didaktik. The theoretical background comprises a pedagogical/didactical approach based on German critical constructive....... Several problems are discussed, the main being: How can preschool teachers balance children’s sense of wonder, i.e. their construction of knowledge (which often result in a anthropocentric thinking) against a teaching approach, which gives children a scientific understanding of scientific phenomena....

  11. Possibilities and Limits of Integrating Science and Diversity Education in Preservice Elementary Teacher Preparation

    Science.gov (United States)

    Bravo, Marco A.; Mosqueda, Eduardo; Solís, Jorge L.; Stoddart, Trish

    2014-08-01

    In this paper we present findings from a project that documented the development of preservice teachers' beliefs and practices in delivering science instruction that considers issues of language and culture. Teacher candidates in the intervention group ( n = 65) received a science methods course and teaching practicum experience that provided guidance in teaching science in culturally and linguistically responsive ways. Comparisons between a control group of preservice teachers ( n = 45) and those involved in the intervention yielded stronger beliefs about the efficacy in promoting collaboration in science teaching than the intervention group. Observations of these preservice teachers during their teaching practicum revealed differences in favor of the intervention group in: (a) implementing science instruction that addressed the language and literacy involved in science; (b) using questions that elicited higher order thinking and; (c) providing scaffolds (e.g., purposeful feedback, probing student background knowledge) when confronting abstract scientific concepts. Implications for preservice teacher education are addressed.

  12. Science Education Research Trends in Latin America

    Science.gov (United States)

    Medina-Jerez, William

    2018-01-01

    The purpose of this study was to survey and report on the empirical literature at the intersection of science education research in Latin American and previous studies addressing international research trends in this field. Reports on international trends in science education research indicate that authors from English-speaking countries are major…

  13. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Film Review. Articles in Resonance – Journal of Science Education. Volume 22 Issue 3 March 2017 pp 317-318 Film Review. The Untold Story of NASA's Trailblazers: Hidden Figures sheds light on the contributions of black women to the US Space Race.

  14. Students' Attitudes towards Interdisciplinary Education: A Course on Interdisciplinary Aspects of Science and Engineering Education

    Science.gov (United States)

    Gero, Aharon

    2017-01-01

    A course entitled "Science and Engineering Education: Interdisciplinary Aspects" was designed to expose undergraduate students of science and engineering education to the attributes of interdisciplinary education which integrates science and engineering. The core of the course is an interdisciplinary lesson, which each student is…

  15. A university system's approach to enhancing the educational mission of health science schools and institutions: the University of Texas Academy of Health Science Education

    Directory of Open Access Journals (Sweden)

    L. Maximilian Buja

    2013-03-01

    Full Text Available Background: The academy movement developed in the United States as an important approach to enhance the educational mission and facilitate the recognition and work of educators at medical schools and health science institutions. Objectives: Academies initially formed at individual medical schools. Educators and leaders in The University of Texas System (the UT System, UTS recognized the academy movement as a means both to address special challenges and pursue opportunities for advancing the educational mission of academic health sciences institutions. Methods: The UTS academy process was started by the appointment of a Chancellor's Health Fellow for Education in 2004. Subsequently, the University of Texas Academy of Health Science Education (UTAHSE was formed by bringing together esteemed faculty educators from the six UTS health science institutions. Results: Currently, the UTAHSE has 132 voting members who were selected through a rigorous, system-wide peer review and who represent multiple professional backgrounds and all six campuses. With support from the UTS, the UTAHSE has developed and sustained an annual Innovations in Health Science Education conference, a small grants program and an Innovations in Health Science Education Award, among other UTS health science educational activities. The UTAHSE represents one university system's innovative approach to enhancing its educational mission through multi- and interdisciplinary as well as inter-institutional collaboration. Conclusions: The UTAHSE is presented as a model for the development of other consortia-type academies that could involve several components of a university system or coalitions of several institutions.

  16. Earth Science Data Education through Cooking Up Recipes

    Science.gov (United States)

    Weigel, A. M.; Maskey, M.; Smith, T.; Conover, H.

    2016-12-01

    One of the major challenges in Earth science research and applications is understanding and applying the proper methods, tools, and software for using scientific data. These techniques are often difficult and time consuming to identify, requiring novel users to conduct extensive research, take classes, and reach out for assistance, thus hindering scientific discovery and real-world applications. To address these challenges, the Global Hydrology Resource Center (GHRC) DAAC has developed a series of data recipes that novel users such as students, decision makers, and general Earth scientists can leverage to learn how to use Earth science datasets. Once the data recipe content had been finalized, GHRC computer and Earth scientists collaborated with a web and graphic designer to ensure the content is both attractively presented to data users, and clearly communicated to promote the education and use of Earth science data. The completed data recipes include, but are not limited to, tutorials, iPython Notebooks, resources, and tools necessary for addressing key difficulties in data use across a broad user base. These recipes enable non-traditional users to learn how to use data, but also curates and communicates common methods and approaches that may be difficult and time consuming for these users to identify.

  17. The Implications for Science Education of Heidegger's Philosophy of Science

    Science.gov (United States)

    Shaw, Robert

    2013-01-01

    Science teaching always engages a philosophy of science. This article introduces a modern philosophy of science and indicates its implications for science education. The hermeneutic philosophy of science is the tradition of Kant, Heidegger, and Heelan. Essential to this tradition are two concepts of truth, truth as correspondence and truth as…

  18. Introductory Comments on Philosophy and Constructivism in Science Education

    Science.gov (United States)

    Matthews, Michael R.

    This article indicates something of the enormous influence of constructivism on contemporary science education. The article distinguishes educational constructivism (that has its origins in theories of children's learning), from constructivism in the philosophy of science (usually associated with instrumentalist views of scientific theory), and from constructivism in the sociology of science (of which the Edinburgh Strong Programme in the sociology of scientific knowledge is the best known example). It notes the expansion of educational constructivism from initial considerations of how children come to learn, to views about epistemology, educational theory, ethics, and the cognitive claims of science. From the learning-theory beginnings of constructivism, and at each stage of its growth, philosophical questions arise that deserve the attention of educators. Among other things, the article identifies some theoretical problems concerning constructivist teaching of the content of science.

  19. Student Empowerment in an Environmental Science Classroom: Toward a Framework for Social Justice Science Education

    Science.gov (United States)

    Dimick, Alexandra Schindel

    2012-01-01

    Social justice education is undertheorized in science education. Given the wide range of goals and purposes proposed within both social justice education and social justice science education scholarship, these fields require reconciliation. In this paper, I suggest a student empowerment framework for conceptualizing teaching and learning social…

  20. Action Research Using Entomological Research to Promote Hands-On Science Inquiry in a High-Poverty, Midwest Urban High School

    Science.gov (United States)

    Stockmann, Dustin

    The purpose of this mixed-methods action research study was to examine to what extent entomological research can promote students' hands-on learning in a high-poverty, urban, secondary setting. In reviewing the literature, the researcher was not able to find a specific study that investigated how entomological research could promote the hands-on learning of students. The researcher did find evidence that research on learning in a secondary setting was important to student growth. It should also be noted that support was established for the implementation of hands-on science inquiry in the classroom setting. The study's purpose was to aid educators in their instruction by combining research-based strategies and hands-on science inquiry. The surveys asked 30 students to rate their understanding of three basic ideas. These core ideas were entomological research, hands-on science inquiry, and urban studies. These core ideas provided the foundation for the study. The questionnaires were based on follow-up ideas from the surveys. Two interview sessions were used to facilitate this one-on-one focus. Because the study included only 30 student participants, its findings may not be totally replicable. Further study investigating the links between entomological research and hands-on science learning in an urban environment is needed.

  1. Energy Project Professional Development: Promoting Positive Attitudes about Science among K-12 Teachers

    Science.gov (United States)

    Robertson, Amy D.; Daane, Abigail R.

    2017-01-01

    Promoting positive attitudes about science among teachers has important implications for teachers' classroom practice and for their relationship to science as a discipline. In this paper, we report positive shifts in teachers' attitudes about science, as measured by the Colorado Learning Attitudes about Science (CLASS) survey, over the course of…

  2. Education in the nuclear sciences at Japanese universities

    International Nuclear Information System (INIS)

    Takashima, Y.

    1990-01-01

    Though there are 430 government and private universities in Japan, only a limited number of them have the department associated with nuclear science education. And the education is one-sided to government universities because mainly of financial problem. Nuclear engineering departments are installed at only 7 big universities. In addition, there are 3 institutes associated with a nuclear reactor. In these facilities, education on reactor physics, radiation measurement, electromagnetics and material sciences are conducted. For education on safety handling of radioactive materials, 10 radioisotope centers and 7 radiochemistry laboratories attached to big government universities act an important role. Almost all of the financial support for the above nuclear education come from the Ministry of Education, Science and Culture. However, some other funds are introduced by the private connection of professors

  3. Cultural, Social and Political Perspectives in Science Education

    DEFF Research Database (Denmark)

    education research to question whether conventional research approaches, foci and theoretical approaches are sufficient in a world of science education that is neither politically neutral, nor free of cultural values. Attention is not only on the individual learner but on the cultural, social and political......This book presents a collection of critical thinking that concern cultural, social and political issues for science education in the Nordic countries. The chapter authors describe specific scenarios to challenge persisting views, interrogate frameworks and trouble contemporary approaches...... to researching teaching and learning in science. Taking a point of departure in empirical examples from the Nordic countries the collection of work is taking a critical sideways glance at the Nordic education principles. Critical examinations target specifically those who are researching in the fields of science...

  4. Science Teacher Identity and Eco-Transformation of Science Education: Comparing Western Modernism with Confucianism and Reflexive "Bildung"

    Science.gov (United States)

    Sjöström, Jesper

    2018-01-01

    This forum article contributes to the understanding of how science teachers' identity is related to their worldviews, cultural values and educational philosophies, and to eco-transformation of science education. Special focus is put on "reform-minded" science teachers. The starting point is the paper "Science education reform in…

  5. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Face to Face. Articles in Resonance – Journal of Science Education. Volume 13 Issue 1 January 2008 pp 89-98 Face to Face. Viewing Life Through Numbers · C Ramakrishnan Sujata Varadarajan · More Details Fulltext PDF. Volume 13 Issue 3 March 2008 pp ...

  6. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Logo of the Indian Academy of Sciences. Indian Academy of Sciences. Home · About ... Home; Journals; Resonance – Journal of Science Education; Volume 3; Issue 12. Pictures at an Exhibition – A ... Vivek S Borkar1. Department of Computer Science and Automation, Indian Institute of Science, Bangalore 560 012, India ...

  7. IS THE INQUIRY-BASED SCIENCE EDUCATION THE BEST?

    Directory of Open Access Journals (Sweden)

    Milan Kubiatko

    2016-10-01

    Full Text Available The science education is fighting with a relatively big problem. Many academicians, teachers and also laic society are still perceiving difficulty in understanding of concepts from science subject and lack of interest about this group of subjects. In the past the teaching process was very formal focused on the memorizing of the facts without any deeper understanding of the processes in the nature. Pupils and students knew all definitions about concepts in the science subjects, but practical application was on the low level. The academicians, teachers and other people interested in the science education were eager to change system of education.

  8. University Festival Promotes STEM Education

    Science.gov (United States)

    Quagliata, Andrew B.

    2015-01-01

    STEM education is argued as an essential ingredient in preparing our children for careers of the future. This study describes a university festival that includes the promotion of STEM-related career interests in young people among its goals. A total of 203 participants between the age of 7 and 17 completed both pre-event and post-event surveys. In…

  9. Primary science education: Views from three Australian States

    Science.gov (United States)

    Jeans, Bruce; Farnsworth, Ian

    1992-12-01

    This paper reports an empirical study of science education in Australian primary schools. The data show that, while funding is seen as a major determinant of what is taught and how it is taught, teacher-confidence and teacher-knowledge are also important variables. Teachers are most confident with topics drawn from the biological sciences, particularly things to do with plants. With this exception there is no shared body of science education knowledge that could be used to develop a curriculum for science education. There was evidence that most teachers see a need for a hands-on approach to primary science education involving the use of concrete materials. A substantial proportion of teachers agree that some of the problems would be alleviated by having a set course together with simple, prepared kits containing sample learning experiences. Any such materials must make provision for individual teachers to capitalise on critical teaching incidents as they arise and must not undermine the professional pride that teachers have in their work.

  10. The Elwha Science Education Project (ESEP): Engaging an Entire Community in Geoscience Education

    Science.gov (United States)

    Young, R. S.; Kinner, F.

    2008-12-01

    Native Americans are poorly represented in all science, technology and engineering fields. This under- representation results from numerous cultural, economic, and historical factors. The Elwha Science Education Project (ESEP), initiated in 2007, strives to construct a culturally-integrated, geoscience education program for Native American young people through engagement of the entire tribal community. The ESEP has developed a unique approach to informal geoscience education, using environmental restoration as a centerpiece. Environmental restoration is an increasingly important goal for tribes. By integrating geoscience activities with community tradition and history, project stakeholders hope to show students the relevance of science to their day-to-day lives. The ESEP's strength lies in its participatory structure and unique network of partners, which include Olympic National Park; the non-profit, educational center Olympic Park Institute (OPI); a geologist providing oversight and technical expertise; and the Lower Elwha Tribe. Lower Elwha tribal elders and educators share in all phases of the project, from planning and implementation to recruitment of students and discipline. The project works collaboratively with tribal scientists and cultural educators, along with science educators to develop curriculum and best practices for this group of students. Use of hands-on, place-based outdoor activities engage students and connect them with the science outside their back doors. Preliminary results from this summer's middle school program indicate that most (75% or more) students were highly engaged approximately 90% of the time during science instruction. Recruitment of students has been particularly successful, due to a high degree of community involvement. Preliminary evaluations of the ESEP's outcomes indicate success in improving the outlook of the tribe's youth towards the geosciences and science, in general. Future evaluation will be likewise participatory

  11. Teaching Methods in Biology Education and Sustainability Education Including Outdoor Education for Promoting Sustainability--A Literature Review

    Science.gov (United States)

    Jeronen, Eila; Palmberg, Irmeli; Yli-Panula, Eija

    2017-01-01

    There are very few studies concerning the importance of teaching methods in biology education and environmental education including outdoor education for promoting sustainability at the levels of primary and secondary schools and pre-service teacher education. The material was selected using special keywords from biology and sustainable education…

  12. Science teacher identity and eco-transformation of science education: comparing Western modernism with Confucianism and reflexive Bildung

    Science.gov (United States)

    Sjöström, Jesper

    2018-03-01

    This forum article contributes to the understanding of how science teachers' identity is related to their worldviews, cultural values and educational philosophies, and to eco-transformation of science education. Special focus is put on `reform-minded' science teachers. The starting point is the paper Science education reform in Confucian learning cultures: teachers' perspectives on policy and practice in Taiwan by Ying-Syuan Huang and Anila Asghar. It highlights several factors that can explain the difficulties of implementing "new pedagogy" in science education. One important factor is Confucian values and traditions, which seem to both hinder and support the science teachers' implementation of inquiry-based and learner-centered approaches. In this article Confucianism is compared with other learning cultures and also discussed in relation to different worldviews and educational philosophies in science education. Just like for the central/north European educational tradition called Bildung, there are various interpretations of Confucianism. However, both have subcultures (e.g. reflexive Bildung and Neo-Confucianism) with similarities that are highlighted in this article. If an "old pedagogy" in science education is related to essentialism, rationalist-objectivist focus, and a hierarchical configuration, the so called "new pedagogy" is often related to progressivism, modernism, utilitarianism, and a professional configuration. Reflexive Bildung problematizes the values associated with such a "new pedagogy" and can be described with labels such as post-positivism, reconstructionism and problematizing/critical configurations. Different educational approaches in science education, and corresponding eco-identities, are commented on in relation to transformation of educational practice.

  13. Creating a medical education enterprise: leveling the playing fields of medical education vs. medical science research within core missions.

    Science.gov (United States)

    Thammasitboon, Satid; Ligon, B Lee; Singhal, Geeta; Schutze, Gordon E; Turner, Teri L

    2017-01-01

    Unlike publications of medical science research that are more readily rewarded, clinician-educators' scholarly achievements are more nebulous and under-recognized. Create an education enterprise that empowers clinician-educators to engage in a broad range of scholarly activities and produce educational scholarship using strategic approaches to level the playing fields within an organization. The authors analyzed the advantages and disadvantages experienced by medical science researchers vs. clinician educators using Bolman and Deal's (B&D) four frames of organization (structural, human resource, political, symbolic). The authors then identified organizational approaches and activities that align with each B&D frame and proposed practical strategies to empower clinician-educators in their scholarly endeavors. Our medical education enterprise enhanced the structural frame by creating a decentralized medical education unit, incorporated the human resource component with an endowed chair to support faculty development, leveraged the political model by providing grant supports and expanding venues for scholarship, and enhanced the symbolic frame by endorsing the value of education and public recognition from leaderships. In five years, we saw an increased number of faculty interested in becoming clinician-educators, had an increased number of faculty winning Educational Awards for Excellence and delivering conference presentations, and received 12 of the 15 college-wide awards for educational scholarship. These satisfactory trends reflect early success of our educational enterprise. B&D's organizational frames can be used to identify strategies for addressing the pressing need to promote and recognize clinician-educators' scholarship. We realize that our situation is unique in several respects, but this approach is flexible within an institution and transferable to any other institution and its medical education program. B&D: Bolman and Deal; CRIS: Center for Research

  14. Exploring Secondary Science Teachers' Perceptions on the Goals of Earth Science Education in Taiwan

    Science.gov (United States)

    Chang, Chun-Yen; Chang, Yueh-Hsia; Yang, Fang-Ying

    2009-01-01

    The educational reform movement since the 1990s has led the secondary earth science curriculum in Taiwan into a stage of reshaping. The present study investigated secondary earth science teachers' perceptions on the Goals of Earth Science Education (GESE). The GESE should express the statements of philosophy and purpose toward which educators…

  15. Informal science education: lifelong, life-wide, life-deep.

    Science.gov (United States)

    Sacco, Kalie; Falk, John H; Bell, James

    2014-11-01

    Informal Science Education: Lifelong, Life-Wide, Life-Deep Informal science education cultivates diverse opportunities for lifelong learning outside of formal K-16 classroom settings, from museums to online media, often with the help of practicing scientists.

  16. Southern Africa Journal of Education, Science and Technology ...

    African Journals Online (AJOL)

    Southern Africa Journal of Education, Science and Technology: Journal Sponsorship. Journal Home > About the Journal > Southern Africa Journal of Education, Science and Technology: Journal Sponsorship. Log in or Register to get access to full text downloads.

  17. Searching for Meaning in Science Education.

    Science.gov (United States)

    Berkheimer, Glenn D.; McLeod, Richard J.

    1979-01-01

    Discusses how science programs K-16 should be developed to meet the modern objectives of science education and restore its true meaning. The theories of Phenix and Ausubel are included in this discussion. (HM)

  18. Encountering Science Education's Capacity to Affect and Be Affected

    Science.gov (United States)

    Alsop, Steve

    2016-01-01

    What might science education learn from the recent affective turn in the humanities and social sciences? Framed as a response to Michalinos Zembylas's article, this essay draws from selected theorizing in affect theory, science education and science and technology studies, in pursuit of diverse and productive ways to talk of affect within science…

  19. SunDial: embodied informal science education using GPS

    Directory of Open Access Journals (Sweden)

    Megan K. Halpern

    2011-06-01

    Full Text Available Science centers serve a number of goals for visitors, ideally providing experiences that are educational, social, and meaningful. This paper describes SunDial, a handheld application developed for families to use at a science center. Inspired by the idea of geocaching, the high-tech treasure hunting game that utilizes GPS technologies, SunDial asks families to use a single handheld device to locate and participate in a series of learning modules around the museum. Observations of 10 families suggest that it supports rich informal science education experiences, provides insights about families’ interaction patterns around and with single handheld devices, and demonstrates the value of navigation as an educational experience. Further, using recently released guidelines for Informal Science Education (ISE experiences to inform the design process proved valuable, tying features of the technology to educational and social goals, and giving evidence that explicit reference to these guidelines can improve ISE experiences and technologies.

  20. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Logo of the Indian Academy of Sciences. Indian Academy of Sciences ... Home; Journals; Resonance – Journal of Science Education; Volume 3; Issue 1. An Introduction to Parallel ... Abhiram Ranade1. Department of Computer Science and Engineering, Indian Institute of Technology Powai, Mumbai 400076, India ...

  1. Ethiopian Journal of Education and Sciences: Submissions

    African Journals Online (AJOL)

    General: Journal of Education and Sciences is the product of Jimma University ... and behavioral sciences, current sensitive issues like gender and HIV/AIDS. Priority ... and science studies, and information on teaching and learning facilitation.

  2. Science in the schoolhouse: an uninvited guest.

    Science.gov (United States)

    Landrum, Timothy J; Tankersley, Melody

    2004-01-01

    Science and scientific thinking have not made a substantial impact on educational practice. In this discussion, we examine the relationship between science and education and delineate four reasons for characterizing science as an uninvited guest in schools: (a) Science is not highly regarded in society; (b) good science and bad science are often mistaken for one another; (c) the amount of current data is overwhelming; and (d) science is not easy for those who practice it (researchers), those who translate it (teacher educators), or those who consume it (teachers). We suggest several strategies to improve this relationship, including promoting standards of educational practice, emphasizing the role of teacher educators as translators of the research base into classroom practice, and linking student outcomes with the use of effective instructional practices.

  3. Making graduate research in science education more scientific

    Science.gov (United States)

    Firman, Harry

    2016-02-01

    It is expected that research conducted by graduate students in science education provide research findings which can be utilized as evidence based foundations for making decisions to improve science education practices in schools. However, lack of credibility of research become one of the factors cause idleness of thesis and dissertation in the context of education improvement. Credibility of a research is constructed by its scientificness. As a result, enhancement of scientific characters of graduate research needs to be done to close the gap between research and practice. A number of guiding principles underlie educational researchs as a scientific inquiry are explored and applied in this paper to identify common shortages of some thesis and dissertation manuscripts on science education reviewed in last two years.

  4. Engagement as a Threshold Concept for Science Education and Science Communication

    Science.gov (United States)

    McKinnon, Merryn; Vos, Judith

    2015-01-01

    Science communication and science education have the same overarching aim--to engage their audiences in science--and both disciplines face similar challenges in achieving this aim. Knowing how to effectively engage their "audiences" is fundamental to the success of both. Both disciplines have well-developed research fields identifying…

  5. Training Informal Educators Provides Leverage for Space Science Education and Public Outreach

    Science.gov (United States)

    Allen, J. S.; Tobola, K. W.; Betrue, R.

    2004-01-01

    How do we reach the public with the exciting story of Solar System Exploration? How do we encourage girls to think about careers in science, math, engineering and technology? Why should NASA scientists make an effort to reach the public and informal education settings to tell the Solar System Exploration story? These are questions that the Solar System Exploration Forum, a part of the NASA Office of Space Science Education (SSE) and Public Outreach network, has tackled over the past few years. The SSE Forum is a group of education teams and scientists who work to share the excitement of solar system exploration with colleagues, formal educators, and informal educators like museums and youth groups. One major area of the SSE Forum outreach supports the training of Girl Scouts of the USA (GS) leaders and trainers in a suite of activities that reflect NASA missions and science research. Youth groups like Girl Scouts structure their activities as informal education.

  6. The ongoing educational anomaly of earth science placement

    Science.gov (United States)

    Messina, P.; Speranza, P.; Metzger, E.P.; Stoffer, P.

    2003-01-01

    The geosciences have traditionally been viewed with less "aCademic prTstige" than other science curricula. Among the results of this perception are depressed K-16 enrollments, Earth Science assignments to lower-performing students, and relegation of these classes to sometimes under-qualified educators, all of which serve to confirm the widely-held misconceptions. An Earth Systems course developed at San Jos??e State University demonstrates the difficulty of a standard high school Earth science curriculum, while recognizing the deficiencies in pre-college Earth science education. Restructuring pre-college science curricula so that Earth Science is placed as a capstone course would greatly improve student understanding of the geosciences, while development of Earth systems courses that infuse real-world and hands-on learning at the college level is critical to bridging the information gap for those with no prior exposure to the Earth sciences. Well-crafted workshops for pre-service and inservice teachers of Earth Science can heIp to reverse the trends and unfortunate "sTatus" in geoscience education.

  7. MARKETING ONLINE EDUCATION PROGRAMS FRAMEWORKS FOR PROMOTION AND COMMUNICATION

    Directory of Open Access Journals (Sweden)

    Reviewed by R.Ayhan YILMAZ

    2011-07-01

    Full Text Available Topics of the book is cover on building corporate identity for educational institutions, cultural and regional issues in educational product development, Defining the role of online education in today‘s world, individualization of open educational services, integrated marketing communications, measuring the impact of educational promotions, new customers and new demands, open and Distance education, reputation issues in online education and sustainable communication before, during and after enrollment

  8. Strengthening the career development of clinical translational scientist trainees: a consensus statement of the Clinical Translational Science Award (CTSA) Research Education and Career Development Committees.

    Science.gov (United States)

    Meyers, Frederick J; Begg, Melissa D; Fleming, Michael; Merchant, Carol

    2012-04-01

    The challenges for scholars committed to successful careers in clinical and translational science are increasingly well recognized. The Education and Career Development (EdCD) of the national Clinical and Translational Science Award consortium gathered thought leaders to propose sustainable solutions and an agenda for future studies that would strengthen the infrastructure across the spectrum of pre- and postdoctoral, MD and PhD, scholars. Six consensus statements were prepared that include: (1) the requirement for career development of a qualitatively different investigator; (2) the implications of interdisciplinary science for career advancement including institutional promotion and tenure actions that were developed for discipline-specific accomplishments; (3) the need for long-term commitment of institutions to scholars; (4) discipline-specific curricula are still required but curricula designed to promote team work and interdisciplinary training will promote innovation; (5) PhD trainees have many pathways to career satisfaction and success; and (6) a centralized infrastructure to enhance and reward mentoring is required. Several themes cut across all of the recommendations including team science, innovation, and sustained institutional commitment. Implied themes include an effective and diverse job force and the requirement for a well-crafted public policy that supports continued investments in science education. © 2012 Wiley Periodicals, Inc.

  9. Individuals with greater science literacy and education have more polarized beliefs on controversial science topics.

    Science.gov (United States)

    Drummond, Caitlin; Fischhoff, Baruch

    2017-09-05

    Although Americans generally hold science in high regard and respect its findings, for some contested issues, such as the existence of anthropogenic climate change, public opinion is polarized along religious and political lines. We ask whether individuals with more general education and greater science knowledge, measured in terms of science education and science literacy, display more (or less) polarized beliefs on several such issues. We report secondary analyses of a nationally representative dataset (the General Social Survey), examining the predictors of beliefs regarding six potentially controversial issues. We find that beliefs are correlated with both political and religious identity for stem cell research, the Big Bang, and human evolution, and with political identity alone on climate change. Individuals with greater education, science education, and science literacy display more polarized beliefs on these issues. We find little evidence of political or religious polarization regarding nanotechnology and genetically modified foods. On all six topics, people who trust the scientific enterprise more are also more likely to accept its findings. We discuss the causal mechanisms that might underlie the correlation between education and identity-based polarization.

  10. Kuhn in the Classroom, Lakatos in the Lab: Science Educators Confront the Nature-of-Science Debate.

    Science.gov (United States)

    Turner, Steven; Sullenger, Karen

    1999-01-01

    Examines how science educators and educational researchers have drawn on the fragmented teachings of science studies about the nature of science, and how they have used those teachings as a resource in their own projects. Analyzes some of the deep assumptions about the relationship between science, school science, and children's learning.…

  11. Professional masters in science education: structure, specificity, effectivity and teaching professional development

    Directory of Open Access Journals (Sweden)

    Alberto Villani

    2017-04-01

    elements of distinction that allow the PMST to have its own identity. The second category was organized in order to join the articles that were focused on the possible contributions of the PM courses to the teacher education in science. The meta analysis of these contributions was developed based on an analysis scheme constructed by the authors that establish eight dimensions to characterize the teacher professional development: scientific knowledge update; pedagogical knowledge update; educational organization and leading; student’s learning support; participation in the school management; investigation of its own practice; planning the professional career; and participation in social responsibility. Despite the controversies presented in the first category, all the articles joined in the second category consider that the PMST represent educational spaces with potential to promote the professional development of teachers in different dimensions of their career.

  12. Pre-Service Physics Teachers' Conceptions of Nature of Science

    Science.gov (United States)

    Buaraphan, Khajornsak

    2011-01-01

    Understanding of NOS (nature of science) appears as a prerequisite of a scientifically literate person. Promoting adequate understanding of NOS in pre-service physics teachers is, therefore, an important task of science educators. Before doing that, science educators must have information concerning their pre-service teachers' conceptions of NOS.…

  13. Reconceptualizing the Nature of Science for Science Education: Why Does it Matter?

    Science.gov (United States)

    Dagher, Zoubeida R.; Erduran, Sibel

    2016-01-01

    Two fundamental questions about science are relevant for science educators: (a) What is the nature of science? and (b) what aspects of nature of science should be taught and learned? They are fundamental because they pertain to how science gets to be framed as a school subject and determines what aspects of it are worthy of inclusion in school…

  14. Taking the Lead in Science Education: Forging Next-Generation Science Standards. International Science Benchmarking Report. Appendix

    Science.gov (United States)

    Achieve, Inc., 2010

    2010-01-01

    This appendix accompanies the report "Taking the Lead in Science Education: Forging Next-Generation Science Standards. International Science Benchmarking Report," a study conducted by Achieve to compare the science standards of 10 countries. This appendix includes the following: (1) PISA and TIMSS Assessment Rankings; (2) Courses and…

  15. Ernst Mach and the Epistemological Ideas Specific for Finnish Science Education

    Science.gov (United States)

    Siemsen, Hayo

    2011-03-01

    Where does Finnish science education come from? Where will it go? The following outside view reflects on relations, which Finns consider "normal" (and thus unrecognizable in introspection) in science education. But what is "normal" in Finnish culture cannot be considered "normal" for science education in other cultures, for example in Germany. The following article will trace the central ideas, which had a larger influence in the development of this difference. The question is, if and why the Finnish uniqueness in the philosophy of science education is empirically important. This puts Finnish science education into the perspective of a more general epistemological debate around Ernst Mach's Erkenntnistheorie (a German term similar to the meaning of history and philosophy of science, though more general; literally translated "cognition/knowledge theory"). From this perspective, an outlook will be given on open questions within the epistemology of Finnish science education. Following such questions could lead to the adaptation of the "successful" ideas in Finnish science education (indicated by empirical studies, such as the OECD PISA study) as well as the further development of the central ideas of Finnish science education.

  16. 75 FR 5771 - Institute of Education Sciences; Overview Information; Education Research and Special Education...

    Science.gov (United States)

    2010-02-04

    ... DEPARTMENT OF EDUCATION Institute of Education Sciences; Overview Information; Education Research and Special Education Research Grant Programs; Notice Inviting Applications for New Awards for Fiscal....305D, 84.305E, 84.324A, 84.324B, and 84.324C. Summary: The Director of the Institute of Education...

  17. Changing the science education paradigm: from teaching facts to engaging the intellect: Science Education Colloquia Series, Spring 2011.

    Science.gov (United States)

    Fischer, Caleb Nathaniel

    2011-09-01

    Dr. Jo Handelsman, Howard Hughes Medical Institute Professor in the Department of Molecular, Cellular and Developmental Biology at Yale University, is a long-time devotee of scientific teaching, receiving this year's Presidential Award for Science Mentoring. She gave a seminar entitled "What is Scientific Teaching? The Changing Landscape of Science Education" as a part of the Scientific Education Colloquia Series in spring 2011. After dissecting what is wrong with the status quo of American scientific education, several ideological and practical changes are proposed, including active learning, regular assessment, diversity, and mentorship. Copyright © 2011.

  18. HARNESSING VALUES TO PROMOTE MOTIVATION IN EDUCATION

    Science.gov (United States)

    Harackiewicz, Judith M.; Tibbetts, Yoi; Canning, Elizabeth; Hyde, Janet S.

    2017-01-01

    Purpose We review the interventions that promote motivation in academic contexts, with a focus on two primary questions: How can we motivate students to take more STEM courses? Once in those STEM courses, how can we keep students motivated and promote their academic achievement? Design/methodology/approach We have approached these two motivational questions from several perspectives, examining the theoretical issues with basic laboratory research, conducting longitudinal questionnaire studies in classrooms, and developing interventions implemented in different STEM contexts. Our research is grounded in three theories that we believe are complementary: expectancy-value theory (Eccles & Wigfield, 2002), interest theory (Hidi & Renninger, 2006), and self-affirmation theory (Steele, 1988). As social psychologists, we have focused on motivational theory and used experimental methods, with an emphasis on values – students’ perceptions of the value of academic tasks and students’ personal values that shape their experiences in academic contexts. Findings We review the experimental field studies in high-school science and college psychology classes, in which utility-value interventions promoted interest and performance for high-school students in science classes and for undergraduate students in psychology courses. We also review a randomized intervention in which parents received information about the utility value of math and science for their teens in high school; this intervention led students to take nearly one semester more of science and mathematics, compared with the control group. Finally, we review an experimental study of values affirmation in a college biology course and found that the intervention improved performance and retention for first-generation college students, closing the social-class achievement gap by 50%. We conclude by discussing the mechanisms through which these interventions work. Originality/value These interventions are exciting for

  19. HARNESSING VALUES TO PROMOTE MOTIVATION IN EDUCATION.

    Science.gov (United States)

    Harackiewicz, Judith M; Tibbetts, Yoi; Canning, Elizabeth; Hyde, Janet S

    2014-01-01

    We review the interventions that promote motivation in academic contexts, with a focus on two primary questions: How can we motivate students to take more STEM courses? Once in those STEM courses, how can we keep students motivated and promote their academic achievement? We have approached these two motivational questions from several perspectives, examining the theoretical issues with basic laboratory research, conducting longitudinal questionnaire studies in classrooms, and developing interventions implemented in different STEM contexts. Our research is grounded in three theories that we believe are complementary: expectancy-value theory (Eccles & Wigfield, 2002), interest theory (Hidi & Renninger, 2006), and self-affirmation theory (Steele, 1988). As social psychologists, we have focused on motivational theory and used experimental methods, with an emphasis on values - students' perceptions of the value of academic tasks and students' personal values that shape their experiences in academic contexts. We review the experimental field studies in high-school science and college psychology classes, in which utility-value interventions promoted interest and performance for high-school students in science classes and for undergraduate students in psychology courses. We also review a randomized intervention in which parents received information about the utility value of math and science for their teens in high school; this intervention led students to take nearly one semester more of science and mathematics, compared with the control group. Finally, we review an experimental study of values affirmation in a college biology course and found that the intervention improved performance and retention for first-generation college students, closing the social-class achievement gap by 50%. We conclude by discussing the mechanisms through which these interventions work. These interventions are exciting for their broad applicability in improving students' academic choices and

  20. Integrating Art into Science Education: A Survey of Science Teachers' Practices

    Science.gov (United States)

    Turkka, Jaakko; Haatainen, Outi; Aksela, Maija

    2017-01-01

    Numerous case studies suggest that integrating art and science education could engage students with creative projects and encourage students to express science in multitude of ways. However, little is known about art integration practices in everyday science teaching. With a qualitative e-survey, this study explores the art integration of science…

  1. STFM Behavioral Science/Family Systems Educator Fellowship: Evaluation of the First 4 Years.

    Science.gov (United States)

    Gorski, Victoria; Taylor, Deborah A; Fletcher, Jason; Burge, Sandra K

    2015-01-01

    The discipline of family medicine has long valued the behavioral sciences. Most residency training programs employ a clinical psychologist, social worker, or family therapist to deliver behavioral science curriculum to their residents. However, the cultures and content of training for behavioral sciences and medical professions are quite different, leaving the lone behavioral scientist feeling professionally isolated and unprepared to translate knowledge and skills into tools for the family physician. In response to this need, a group of family medicine educators developed an STFM-sponsored fellowship for behavioral science faculty. The goals of the program were to improve fellows' understanding of the culture of family medicine, provide a curricular toolbox for the behavioral sciences, promote scholarship, and develop a supportive professional network. Senior behavioral science faculty at STFM developed a 1-year fellowship program, featuring "classroom learning" at relevant conferences, mentored small-group interactions, and scholarly project requirements. Achievement of program goals was evaluated annually with pre- and post-fellowship surveys. From 2010 to 2014, 59 fellows completed the program; most were psychologists or social workers; two thirds were women. One month after graduation, fellows reported significant increases in understanding the culture of medicine, improved confidence in their curricula and scholarship, and expanded professional networks, compared to pre-fellowship levels. The program required many hours of volunteer time by leaders, faculty, and mentors plus modest support from STFM staff. Leaders in family medicine education, confronted by the need for inter-professional development, designed and implemented a successful training program for behavioral science faculty.

  2. Informal Science: Family Education, Experiences, and Initial Interest in Science

    Science.gov (United States)

    Dabney, Katherine P.; Tai, Robert H.; Scott, Michael R.

    2016-01-01

    Recent research and public policy have indicated the need for increasing the physical science workforce through development of interest and engagement with informal and formal science, technology, engineering, and mathematics experiences. This study examines the association of family education and physical scientists' informal experiences in…

  3. The Teaching of Anthropogenic Climate Change and Earth Science via Technology-Enabled Inquiry Education

    Science.gov (United States)

    Bush, Drew; Sieber, Renee; Seiler, Gale; Chandler, Mark

    2016-01-01

    A gap has existed between the tools and processes of scientists working on anthropogenic global climate change (AGCC) and the technologies and curricula available to educators teaching the subject through student inquiry. Designing realistic scientific inquiry into AGCC poses a challenge because research on it relies on complex computer models, globally distributed data sets, and complex laboratory and data collection procedures. Here we examine efforts by the scientific community and educational researchers to design new curricula and technology that close this gap and impart robust AGCC and Earth Science understanding. We find technology-based teaching shows promise in promoting robust AGCC understandings if associated curricula address mitigating factors such as time constraints in incorporating technology and the need to support teachers implementing AGCC and Earth Science inquiry. We recommend the scientific community continue to collaborate with educational researchers to focus on developing those inquiry technologies and curricula that use realistic scientific processes from AGCC research and/or the methods for determining how human society should respond to global change.

  4. Resonance – Journal of Science Education | News

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education; Volume 19; Issue 9. Science Academies' Refresher Course in Advances in Chemical Sciences and Sustainable Development. Information and Announcements Volume 19 Issue 9 September 2014 pp 876-876 ...

  5. Trends in Basic Sciences Education in Dental Schools, 1999-2016.

    Science.gov (United States)

    Lantz, Marilyn S; Shuler, Charles F

    2017-08-01

    The purpose of this study was to examine data published over the past two decades to identify trends in the basic sciences curriculum in dental education, provide an analysis of those trends, and compare them with trends in the basic sciences curriculum in medical education. Data published from the American Dental Association (ADA) Surveys of Dental Education, American Dental Education Association (ADEA) Surveys of Dental School Seniors, and two additional surveys were examined. In large part, survey data collected focused on the structure, content, and instructional strategies used in dental education: what was taught and how. Great variability was noted in the total clock hours of instruction and the clock hours of basic sciences instruction reported by dental schools. Moreover, the participation of medical schools in the basic sciences education of dental students appears to have decreased dramatically over the past decade. Although modest progress has been made in implementing some of the curriculum changes recommended in the 1995 Institute of Medicine report such as integrated basic and clinical sciences curricula, adoption of active learning methods, and closer engagement with medical and other health professions education programs, educational effectiveness studies needed to generate data to support evidence-based approaches to curriculum reform are lacking. Overall, trends in the basic sciences curriculum in medical education were similar to those for dental education. Potential drivers of curriculum change were identified, as was recent work in other fields that should encourage reconsideration of dentistry's approach to basic sciences education. This article was written as part of the project "Advancing Dental Education in the 21st Century."

  6. Achieving What Political Science Is For

    Science.gov (United States)

    Isacoff, Jonathan B.

    2014-01-01

    This article argues for a political science discipline and teaching framework predicated empirically on the study of "real-world problems" and normatively on promoting civic engagement among political science students. I argue for a rethinking of political science and political science education in view of the pragmatist thought of John…

  7. Flogging a Dead Horse: Pseudoscience and School Science Education

    Science.gov (United States)

    Vlaardingerbroek, Barend

    2011-01-01

    Pseudoscience is a ubiquitous aspect of popular culture which constitutes a direct challenge to science, and by association, to science education. With the exception of politically influential pseudosciences trying to impose themselves on official curricula such as creationism, science education authorities and professional organisations seem…

  8. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. R Jagannathan. Articles written in Resonance – Journal of Science Education. Volume 4 Issue 1 January 1999 pp 89-92 Information and Announcements. The Institute of Mathematical Sciences · R Jagannathan · More Details Fulltext PDF ...

  9. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education; Volume 9; Issue 4. Simulation of Electron Motion in Fields – An Interactive Teaching Aid ... Department of Physics Shivaji Education Society Amravati's Science College Congress Nagar, Nagpur 440 012, India; Department of Computer Science Anuradha ...

  10. Biopolitics and the `subject' of labor in science education

    Science.gov (United States)

    Bazzul, Jesse

    2017-12-01

    Viewing science education as a site of biopolitical engagement—intervention into forces that seek to define, control, and exploit life (biopower)—requires that science educators ask after how individuals and populations are governed by technologies of power. In this paper, I argue that microanalyses, the analysis of everyday practices and discourses, are integral to biopolitical engagement, are needed to examine practices that constitute subjectivities and maintain oppressive social conditions. As an example of a microanalysis I will discuss how repetitive close-ended lab/assessment tasks, as well as discourses surrounding careers in science, can work to constitute students as depoliticized, self-investing subjects of human capital. I also explore the relationship between science education, (bio)labor and its relation to biopolitics, which remains an underdeveloped area of science education. This paper, part of my doctoral work, began to take shape in 2011, shortly after the 2008 economic crisis achieved a tiny breached in the thick neoliberal stupor of everyday (educational) life.

  11. Science Under Attack Public Policy, Science Education, and the Emperor's New Clothes

    International Nuclear Information System (INIS)

    Krauss, Lawrence

    2005-01-01

    The popular debate about the teaching of intelligent design in public schools is but one quandary for scientists and policy makers. Given recent developments which have worked to breed a general distrust of science, it is evident that researchers and politicians alike should be wary of using popular opinion as a guide for policy and pedagogy when it comes to science in public education. Dr. Krauss will qualify this complex issue and will address how educators, policy makers and scientists can work effectively to prevent public misconceptions of science.

  12. Rural science education as social justice

    Science.gov (United States)

    Eppley, Karen

    2017-03-01

    What part can science education play in the dismantling of obstacles to social justice in rural places? In this Forum contribution, I use "Learning in and about Rural Places: Connections and Tensions Between Students' Everyday Experiences and Environmental Quality Issues in their Community"(Zimmerman and Weible 2016) to explicitly position rural education as a project of social justice that seeks full participatory parity for rural citizens. Fraser's (2009) conceptualization of social justice in rural education requires attention to the just distribution of resources, the recognition of the inherent capacities of rural people, and the right to equal participation in democratic processes that lead to opportunities to make decisions affecting local, regional, and global lives. This Forum piece considers the potential of place-based science education to contribute to this project.

  13. Educational activities for neutron sciences

    International Nuclear Information System (INIS)

    Hiraka, Haruhiro; Ohoyama, Kenji; Iwasa, Kazuaki

    2011-01-01

    Since now we have several world-leading neutron science facilities in Japan, enlightenment activities for introducing neutron sciences, for example, to young people is an indispensable issue. Hereafter, we will report present status of the activities based on collaborations between universities and neutron facilities. A few suggestions for future educational activity of JSNS are also shown. (author)

  14. The pedagogy of argumentation in science education: science teachers' instructional practices

    Science.gov (United States)

    Özdem Yilmaz, Yasemin; Cakiroglu, Jale; Ertepinar, Hamide; Erduran, Sibel

    2017-07-01

    Argumentation has been a prominent concern in science education research and a common goal in science curriculum in many countries over the past decade. With reference to this goal, policy documents burden responsibilities on science teachers, such as involving students in dialogues and being guides in students' spoken or written argumentation. Consequently, teachers' pedagogical practices regarding argumentation gain importance due to their impact on how they incorporate this practice into their classrooms. In this study, therefore, we investigated the instructional strategies adopted by science teachers for their argumentation-based science teaching. Participants were one elementary science teacher, two chemistry teachers, and four graduate students, who have a background in science education. The study took place during a graduate course, which was aimed at developing science teachers' theory and pedagogy of argumentation. Data sources included the participants' video-recorded classroom practices, audio-recorded reflections, post-interviews, and participants' written materials. The findings revealed three typologies of instructional strategies towards argumentation. They are named as Basic Instructional Strategies for Argumentation, Meta-level Instructional ‌St‌‌rategies for ‌Argumentation, and Meta-strategic Instructional ‌St‌‌rategies for ‌Argumentation. In conclusion, the study provided a detailed coding framework for the exploration of science teachers' instructional practices while they are implementing argumentation-based lessons.

  15. DEVELOPMENT STRATEGY OF PARTNERSHIP OF HIGHER EDUCATION, SCIENCE AND BUSINESS

    Directory of Open Access Journals (Sweden)

    I. Mazur

    2014-12-01

    Full Text Available In the article the cooperation of higher education, science and business is analysed. A conflict of civilizations wave development in the confrontation of two forces: the "factory of Education" and force change is disclosed. European and Ukrainian higher education quality estimation is analysed. The effect of unsynchronization in time is educed between the necessities of business and possibilities of education and science. Reasons of bribery are exposed at higher school. The development strategy of partnership of higher education, science and business is proposed.

  16. Southern Africa Journal of Education, Science and Technology ...

    African Journals Online (AJOL)

    BCom Management (Finance (MSU), MCom Strategic Management and Corporate Governance (MSU), Diploma in Education (GTC). Prof. G. Nyamadzawo. BSc (Hons) Agriculture (Soil Science) (UZ), MPhil Agriculture (Soil Science) (UZ), MSc Agriculture (WSU, USA), Diploma in Education, PhD (UZ). ISSN: 1819-3692.

  17. Health Promotion Education Politics and Schooling: The Greek Case

    Science.gov (United States)

    Ifanti, Amalia A.; Argyriou, Andreas A.; Kalofonos, Haralabos P.

    2011-01-01

    This paper seeks to explore the politics of health promotion as a continual process of public health globally and locally. Our main objective in this study is to present the health promotion education initiatives taken by the World Health Organization (WHO) at an international level and also to examine the politics of health promotion in Greece,…

  18. Population Health Science: A Core Element of Health Science Education in Sub-Saharan Africa.

    Science.gov (United States)

    Hiatt, Robert A; Engmann, Natalie J; Ahmed, Mushtaq; Amarsi, Yasmin; Macharia, William M; Macfarlane, Sarah B; Ngugi, Anthony K; Rabbani, Fauziah; Walraven, Gijs; Armstrong, Robert W

    2017-04-01

    Sub-Saharan Africa suffers an inordinate burden of disease and does not have the numbers of suitably trained health care workers to address this challenge. New concepts in health sciences education are needed to offer alternatives to current training approaches.A perspective of integrated training in population health for undergraduate medical and nursing education is advanced, rather than continuing to take separate approaches for clinical and public health education. Population health science educates students in the social and environmental origins of disease, thus complementing disease-specific training and providing opportunities for learners to take the perspective of the community as a critical part of their education.Many of the recent initiatives in health science education in sub-Saharan Africa are reviewed, and two case studies of innovative change in undergraduate medical education are presented that begin to incorporate such population health thinking. The focus is on East Africa, one of the most rapidly growing economies in sub-Saharan Africa where opportunities for change in health science education are opening. The authors conclude that a focus on population health is a timely and effective way for enhancing training of health care professionals to reduce the burden of disease in sub-Saharan Africa.

  19. Preservice Teachers' Memories of Their Secondary Science Education Experiences

    Science.gov (United States)

    Hudson, Peter; Usak, Muhammet; Fančovičová, Jana; Erdoğan, Mehmet; Prokop, Pavol

    2010-12-01

    Understanding preservice teachers' memories of their education may aid towards articulating high-impact teaching practices. This study describes 246 preservice teachers' perceptions of their secondary science education experiences through a questionnaire and 28-item survey. ANOVA was statistically significant about participants' memories of science with 15 of the 28 survey items. Descriptive statistics through SPSS further showed that a teacher's enthusiastic nature (87%) and positive attitude towards science (87%) were regarded as highly memorable. In addition, explaining abstract concepts well (79%), and guiding the students' conceptual development with practical science activities (73%) may be considered as memorable secondary science teaching strategies. Implementing science lessons with one or more of these memorable science teaching practices may "make a difference" towards influencing high school students' positive long-term memories about science and their science education. Further research in other key learning areas may provide a clearer picture of high-impact teaching and a way to enhance pedagogical practices.

  20. The Ways to Promote Pre-service Science Teachers’ Pedagogical Content Knowledge for Inquiry in Learning Management in Science Course

    Directory of Open Access Journals (Sweden)

    Siriphan Satthaphon

    2017-09-01

    Full Text Available This classroom action research aimed to study the ways to promote pre-service science teachers’ pedagogical content knowledge for inquiry (PCK for inquiry. The participants were 37 students who enrolled in Learning Management in Science course in academic year 2014. Multiple data sources including students’ lesson plans, reflective journals, teacher’s logs, and worksheets were collected. The inductive approach was used to analyze data. The findings revealed the ways to promote pre-service science teachers’ PCK for inquiry consisted of being teacher’s explicit role model ; providing students to reflect their practices that link between their knowledge and understandings ; reflection from video case ; collaboration between students and teacher in learning activities planning, and allowing students to practice in actual situation could be better influence students not only reflect their understandings but also design, and teach science through inquiry.

  1. Science Education & Advocacy: Tools to Support Better Education Policies

    Science.gov (United States)

    O'Donnell, Christine; Cunningham, B.; Hehn, J. G.

    2014-01-01

    Education is strongly affected by federal and local policies, such as testing requirements and program funding, and many scientists and science teachers are increasingly interested in becoming more engaged with the policy process. To address this need, I worked with the American Association of Physics Teachers (AAPT) --- a professional membership society of scientists and science teachers that is dedicated to enhancing the understanding and appreciation of physics through teaching --- to create advocacy tools for its members to use, including one-page leave-behinds, guides for meeting with policymakers, and strategies for framing issues. In addition, I developed a general tutorial to aid AAPT members in developing effective advocacy strategies to support better education policies. This work was done through the Society for Physics Students (SPS) Internship program, which provides a range of opportunities for undergraduates, including research, education and public outreach, and public policy. In this presentation, I summarize these new advocacy tools and their application to astronomy education issues.

  2. An Examination of Farmworker Pesticide Educators in a Southeastern State: Informal Science Educators and Risk Communication

    Science.gov (United States)

    LePrevost, Catherine E.

    2011-12-01

    Because pesticide exposure is a significant hazard to farmworkers in their working and living environments, basic pesticide toxicology is a topic for farmworker science education that has implications beyond scientific literacy to encompass farmworkers' safety and health. Migrant and seasonal farmworkers have been identified as an at-risk population because of the cultural and linguistic barriers they face, their temporary employment and tenuous documentation status, and their low literacy levels and limited formal education. Despite the key role of pesticide educators in promoting farmworker scientific literacy, safety, and health, data regarding pesticide educators are absent in the literature. This dissertation investigated the nature of pesticide educators in a southeastern state. Drawing on quantitative and qualitative methods, the three studies contained within this body of work characterize the personal beliefs---including pesticide risk, self-efficacy, and teaching beliefs---of pesticide educators, as well as educators' personal goals and their beliefs about the environments in which they pursue those goals. The research allowed for the creation of a profile of the organizations that and individuals who provide pesticide education to farmworkers in a highly agricultural state. The first study details the development and field testing of the Pesticide Risk Beliefs Inventory, a quantitative inventory to gauge pesticide risk beliefs, with a sample of pesticide educators (n=43) in a southeastern state. The 19-item, Likert-type inventory was found to be psychometrically sound with a Cronbach's alpha of 0.780 and a valuable tool in capturing pesticide educators' beliefs about pesticide risk, assessing beliefs in four key categories. The Pesticide Risk Beliefs Inventory could be useful in exploring beliefs about pesticide risks and guiding efforts to address misconceptions held by a variety of formal and informal science learners, educators, practitioners, the

  3. Advancing Pre-college Science and Mathematics Education

    Energy Technology Data Exchange (ETDEWEB)

    Lee, Rick [General Atomics, San Diego, CA (United States)

    2015-05-06

    With support from the US Department of Energy, Office of Science, Fusion Energy Sciences, and General Atomics, an educational and outreach program primarily for grades G6-G13 was developed using the basic science of plasma and fusion as the content foundation. The program period was 1994 - 2015 and provided many students and teachers unique experiences such as a visit to the DIII-D National Fusion Facility to tour the nation’s premiere tokamak facility or to interact with interesting and informative demonstration equipment and have the opportunity to increase their understanding of a wide range of scientific content, including states of matter, the electromagnetic spectrum, radiation & radioactivity, and much more. Engaging activities were developed for classroom-size audiences, many made by teachers in Build-it Day workshops. Scientist and engineer team members visited classrooms, participated in science expositions, held workshops, produced informational handouts in paper, video, online, and gaming-CD format. Participants could interact with team members from different institutions and countries and gain a wider view of the world of science and engineering educational and career possibilities. In addition, multiple science stage shows were presented to audiences of up to 700 persons in a formal theatre setting over a several day period at Science & Technology Education Partnership (STEP) Conferences. Annually repeated participation by team members in various classroom and public venue events allowed for the development of excellent interactive skills when working with students, teachers, and educational administrative staff members. We believe this program has had a positive impact in science understanding and the role of the Department of Energy in fusion research on thousands of students, teachers, and members of the general public through various interactive venues.

  4. It's not rocket science : developing pupils’ science talent in out-of-school science education for primary schools

    NARCIS (Netherlands)

    Geveke, Carla

    2017-01-01

    Out-of-school science educational activities, such as school visits to a science center, aim at stimulating pupils’ science talent. Science talent is a developmental potential that takes the form of talented behaviors such as curiosity and conceptual understanding. This dissertation investigates

  5. It's not rocket science : Developing pupils’ science talent in out-of-school science education for Primary Schools

    NARCIS (Netherlands)

    Geveke, Catherina

    2017-01-01

    Out-of-school science educational activities, such as school visits to a science center, aim at stimulating pupils’ science talent. Science talent is a developmental potential that takes the form of talented behaviors such as curiosity and conceptual understanding. This dissertation investigates

  6. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Sheela K Ramasesha. Articles written in Resonance – Journal of Science Education. Volume 4 Issue 8 August 1999 pp 16-24 Series Article. Science and Technology of Ceramics - Traditional Ceramics · Sheela K Ramasesha · More Details Fulltext PDF. Volume ...

  7. Avoiding the Issue of Gender in Japanese Science Education

    Science.gov (United States)

    Scantlebury, Kathryn; Baker, Dale; Sugi, Ayumi; Yoshida, Atsushi; Uysal, Sibel

    2007-01-01

    This paper describes how the patriarchal structure of Japanese society and its notions of women, femininity, and gendered stereotypes produced strong cultural barriers to increasing the participation of females in science education. Baseline data on attitudes toward science and the perceptions of gender issues in science education, academic major…

  8. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Srinivasan Ramani. Articles written in Resonance – Journal of Science Education. Volume 13 Issue 5 May 2008 pp 407-409 Article-in-a-Box. Rangaswamy Narasimhan: Doyen of Computer Science and Technology · Srinivasan Ramani · More Details Fulltext ...

  9. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Veena Srinivasan. Articles written in Resonance – Journal of Science Education. Volume 22 Issue 3 March 2017 pp 303-313 Research News. Doing Science That Matters to Address India'sWater Crisis · Veena Srinivasan · More Details Abstract Fulltext PDF.

  10. Creating Science Education Specialists and Scientific Literacy in Students through a Successful Partnership among Scientists, Science Teachers, and Education Researchers

    Science.gov (United States)

    Metoyer, S.; Prouhet, T.; Radencic, S.

    2007-12-01

    The nature of science and the nature of learning are often assumed to have little practical relationship to each other. Scientists conduct research and science teachers teach. Rarely do the scientist and the science teacher have an opportunity to learn from each other. Here we describe results from a program funded by NSF, the Information Technology in Science (ITS) Center for Teaching and Learning. The ITS Center provided the support and structure necessary for successful long-term collaboration among scientists, science teachers, and education researchers that has resulted in the creation of new science education specialists. These specialists are not only among the science teachers, but also include avid recruits to science education from the scientists themselves. Science teachers returned to their classrooms armed with new knowledge of content, inquiry, and ideas for technology tools that could support and enhance students' scientific literacy. Teachers developed and implemented action research plans as a means of exploring educational outcomes of their use and understanding of new technologies and inquiry applied to the classroom. In other words, they tried something different in the class related to authentic inquiry and technology. They then assessed the students' to determine if there was an impact to the students in some way. Many of the scientists, on the other hand, report that they have modified their instructional practices for undergraduate courses based on their experiences with the teachers and the ITS Center. Some joined other collaborative projects pairing scientists and educators. And, many of the scientists continue on-going communication with the science teachers serving as mentors, collaborators, and as an "expert" source for the students to ask questions to. In order to convey the success of this partnership, we illustrate and discuss four interdependent components. First, costs and benefits to the science teacher are discussed through case

  11. Individuals with greater science literacy and education have more polarized beliefs on controversial science topics

    Science.gov (United States)

    2017-01-01

    Although Americans generally hold science in high regard and respect its findings, for some contested issues, such as the existence of anthropogenic climate change, public opinion is polarized along religious and political lines. We ask whether individuals with more general education and greater science knowledge, measured in terms of science education and science literacy, display more (or less) polarized beliefs on several such issues. We report secondary analyses of a nationally representative dataset (the General Social Survey), examining the predictors of beliefs regarding six potentially controversial issues. We find that beliefs are correlated with both political and religious identity for stem cell research, the Big Bang, and human evolution, and with political identity alone on climate change. Individuals with greater education, science education, and science literacy display more polarized beliefs on these issues. We find little evidence of political or religious polarization regarding nanotechnology and genetically modified foods. On all six topics, people who trust the scientific enterprise more are also more likely to accept its findings. We discuss the causal mechanisms that might underlie the correlation between education and identity-based polarization. PMID:28827344

  12. The discovery of X-rays diffraction: From crystals to DNA. A case study to promote understanding of the nature of science and of its interdisciplinary character

    International Nuclear Information System (INIS)

    Guerra, Francesco; Leone, Matteo; Robotti, Nadia

    2015-01-01

    The advantages of introducing history of science topics into the teaching of science has been advocated by a large number of scholars within the science education community. One of the main reasons given for using history of science in teaching is its power to promote understanding of the nature of science (NOS). In this respect, the historical case of X-rays diffraction, from the discovery of Max von Laue (1912) to the first X-rays diffraction photographs of DNA (1953), is a case in point for showing that a correct experimental strategy and a favourable theoretical context are not enough to make a scientific discovery.

  13. Multimedia Bootcamp: a health sciences library provides basic training to promote faculty technology integration.

    Science.gov (United States)

    Ramsey, Ellen C

    2006-04-25

    Recent research has shown a backlash against the enthusiastic promotion of technological solutions as replacements for traditional educational content delivery. Many institutions, including the University of Virginia, have committed staff and resources to supporting state-of-the-art, showpiece educational technology projects. However, the Claude Moore Health Sciences Library has taken the approach of helping Health Sciences faculty be more comfortable using technology in incremental ways for instruction and research presentations. In July 2004, to raise awareness of self-service multimedia resources for instructional and professional development needs, the Library conducted a "Multimedia Bootcamp" for nine Health Sciences faculty and fellows. Case study. Program stewardship by a single Library faculty member contributed to the delivery of an integrated learning experience. The amount of time required to attend the sessions and complete homework was the maximum fellows had to devote to such pursuits. The benefit of introducing technology unfamiliar to most fellows allowed program instructors to start everyone at the same baseline while not appearing to pass judgment on the technology literacy skills of faculty. The combination of wrapping the program in the trappings of a fellowship and selecting fellows who could commit to a majority of scheduled sessions yielded strong commitment from participants as evidenced by high attendance and a 100% rate of assignment completion. Response rates to follow-up evaluation requests, as well as continued use of Media Studio resources and Library expertise for projects begun or conceived during Bootcamp, bode well for the long-term success of this program. An incremental approach to integrating technology with current practices in instruction and presentation provided a supportive yet energizing environment for Health Sciences faculty. Keys to this program were its faculty focus, traditional hands-on instruction, unrestricted

  14. Science Education for Democratic Citizenship through the Use of the History of Science

    Science.gov (United States)

    Kolsto, Stein Dankert

    2008-01-01

    Scholars have argued that the history of science might facilitate an understanding of processes of science. Focusing on science education for citizenship and active involvement in debates on socioscientific issues, one might argue that today's post-academic science differs from academic science in the past, making the history of academic science…

  15. The opportunities and challenges for ICT in science education

    OpenAIRE

    Ferk Savec, Vesna

    2017-01-01

    This article examines the opportunities and challenges for the use of ICT in science education in the light of science teachers’ Technological Pedagogical Content Knowledge (TPACK). Some of the variables that have been studied with regard to the TPACK fra mework in science classrooms (such as teachers’ self - efficacy, gender, teaching experience, teachers’ beliefs, etc.) are reviewed, and variations of the TPACK framework specific for science education ...

  16. Science Education on the Internet: Conference for Developers of OnLine Curricula ''Learning Strategies for Science Education Websites''; FINAL

    International Nuclear Information System (INIS)

    Gesteland, Raymond F.; Dart, Dorothy S.; Logan, Jennifer; Stark, Louisa

    2000-01-01

    Internet-based science education programs are coming of age. Educators now look seriously to the Internet as a source of accessible classroom materials, and they are finding many high-quality online science programs. Beyond providing solid curriculum, these programs have many advantages. They provide materials that are far more current than what textbooks offer and are more accessible to disadvantaged and rural population. Students can engage in inquiry-based learning online through interactive and virtual activities, accessing databases, tracking nature occurrences in real time, joining online science communities and conversing with scientists

  17. Pseudoscience, the Paranormal, and Science Education.

    Science.gov (United States)

    Martin, Michael

    1994-01-01

    Given the widespread acceptance of pseudoscientific and paranormal beliefs, this article suggests that science educators need to seriously consider the problem of how these beliefs can be combated. Proposes teaching science students to critically evaluate the claims of pseudoscience and the paranormal. (LZ)

  18. Plagiarism challenges at Ukrainian science and education

    Directory of Open Access Journals (Sweden)

    Denys Svyrydenko

    2016-12-01

    Full Text Available The article analyzes the types and severity of plagiarism violations at the modern educational and scientific spheres using the philosophic methodological approaches. The author analyzes Ukrainian context as well as global one and tries to formulate "order of the day" of plagiarism challenges. The plagiarism phenomenon is intuitively comprehensible for academicians but in reality it has a very complex nature and a lot of manifestation. Using approaches of ethics, philosophical anthropology, philosophy of science and education author formulates the series of recommendation for overcoming of plagiarism challenges at Ukrainian science and education.

  19. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Palash Sarkar. Articles written in Resonance – Journal of Science Education. Volume 5 Issue 9 September 2000 pp 22-40 General Article. A Sketch of Modern Cryptology - The Art and Science of Secrecy Systems · Palash Sarkar · More Details Fulltext PDF ...

  20. Educational challenges of molecular life science: Characteristics and implications for education and research.

    Science.gov (United States)

    Tibell, Lena A E; Rundgren, Carl-Johan

    2010-01-01

    Molecular life science is one of the fastest-growing fields of scientific and technical innovation, and biotechnology has profound effects on many aspects of daily life-often with deep, ethical dimensions. At the same time, the content is inherently complex, highly abstract, and deeply rooted in diverse disciplines ranging from "pure sciences," such as math, chemistry, and physics, through "applied sciences," such as medicine and agriculture, to subjects that are traditionally within the remit of humanities, notably philosophy and ethics. Together, these features pose diverse, important, and exciting challenges for tomorrow's teachers and educational establishments. With backgrounds in molecular life science research and secondary life science teaching, we (Tibell and Rundgren, respectively) bring different experiences, perspectives, concerns, and awareness of these issues. Taking the nature of the discipline as a starting point, we highlight important facets of molecular life science that are both characteristic of the domain and challenging for learning and education. Of these challenges, we focus most detail on content, reasoning difficulties, and communication issues. We also discuss implications for education research and teaching in the molecular life sciences.

  1. Improving Health with Science: Exploring Community-Driven Science Education in Kenya

    Science.gov (United States)

    Leak, Anne Emerson

    This study examines the role of place-based science education in fostering student-driven health interventions. While literature shows the need to connect science with students' place and community, there is limited understanding of strategies for doing so. Making such connections is important for underrepresented students who tend to perceive learning science in school as disconnected to their experiences out of school (Aikenhead, Calabrese-Barton, & Chinn, 2006). To better understand how students can learn to connect place and community with science and engineering practices in a village in Kenya, I worked with community leaders, teachers, and students to develop and study an education program (a school-based health club) with the goal of improving knowledge of health and sanitation in a Kenyan village. While students selected the health topics and problems they hoped to address through participating in the club, the topics were taught with a focus on providing opportunities for students to learn the practices of science and health applications of these practices. Students learned chemistry, physics, environmental science, and engineering to help them address the health problems they had identified in their community. Surveys, student artifacts, ethnographic field notes, and interview data from six months of field research were used to examine the following questions: (1) In what ways were learning opportunities planned for using science and engineering practices to improve community health? (2) In what ways did students apply science and engineering practices and knowledge learned from the health club in their school, homes, and community? and (3) What factors seemed to influence whether students applied or intended to apply what they learned in the health club? Drawing on place-based science education theory and community-engagement models of health, process and structural coding (Saldana, 2013) were used to determine patterns in students' applications of their

  2. Using a Multicultural Social Justice Framework to Analyze Elementary Teachers' Meanings of Multicultural Science Education

    Science.gov (United States)

    Kye, Hannah Anne

    In response to the persistent gaps in science opportunities and outcomes across lines of race, class, gender, and disability, decades of science reforms have called for "science for all." For elementary teachers, science for all demands that they not only learn to teach science but learn to teach it in ways that promote more equitable science learning opportunities and outcomes. In this qualitative case study, I use a framework of multicultural social justice education to examine three teachers' beliefs and practices of multicultural science education. The teachers, one preservice and two in-service, taught elementary science in a month-long summer program and met weekly with this researcher to discuss connections between their expressed commitments about teaching toward social justice and their work as science teachers. The data sources for this study included audio recordings of weekly meetings, science lessons, and semi-structured individual interviews. These data were transcribed, coded, and analyzed to define the most salient themes and categories among the individual teachers and across cases. I found that the teachers' beliefs and practices aligned with traditional approaches to school and science wherein science was a set of scripted right answers, diversity was only superficially acknowledged, and multiculturalizing the curriculum meant situating science in unfamiliar real world contexts. These meanings of science positioned the teacher as authority and operated outside of a structural analysis of the salience of race, culture, gender, and disability in students' science learning experiences. As they taught and reflected on their teaching in light of their social justice commitments, I found that the teachers negotiated more constructivist and student-centered approaches to science education. These meanings of science required teachers to learn about students and make their experiences more central to their learning. Yet they continued to only acknowledge

  3. Science and the city: A visual journey towards a critical place based science education

    Science.gov (United States)

    Ibrahim, Sheliza

    The inclusion of societal and environmental considerations during the teaching and learning of science and technology has been a central focus among science educators for many decades. Major initiatives in science and technology curriculum advocate for science, technology, society and environment (STSE). Yet, it is surprising that despite these longstanding discussions, it is only recently that a handful of researchers have turned to students' 'places' (and the literature of place based education) to serve as a source of teaching and learning in science education. In my study, I explore three issues evident in place based science education. First, it seems that past scholarship focused on place-based projects which explore issues usually proposed by government initiatives, university affiliation, or community organizations. Second, some of the studies fail to pay extended attention to the collaborative and intergenerational agency that occurs between researcher, teacher, student, and community member dynamics, nor does it share the participatory action research process in order to understand how teacher practice, student learning, and researcher/local collaborations might help pedagogy emerge. The third issue is that past place-based projects, rarely if ever, return to the projects to remember the collaborative efforts and question what aspects sustained after they were complete. To address these issues, I propose a critical place based science education (CPBSE) model. I describe a participatory action research project that develops and explores the CPBSE model. The data were gathered collaboratively among teachers, researchers, and students over 3 years (2006-2008), via digital video ethnography, photographs, and written reflections. The data were analysed using a case study approach and the constant comparative method. I discuss the implications for its practice in the field of STSE and place based education. I conclude that an effective pedagogical model of

  4. BREAKING SPORE: BUILDING INSTRUCTIONAL VALUE IN SCIENCE EDUCATION USING A COMMERCIAL, OFF-THE SHELF GAME

    Directory of Open Access Journals (Sweden)

    Peter Schrader

    2016-01-01

    Full Text Available This investigation explored an alternative method of technology integration and ways to enable educators to judiciously use a wider range of games in their classrooms. Although many games have been created with educational objectives in mind (e.g., Quest Atlantis, Immune Attack, Democracy, proportionally fewer games and simulations are linked to scientific content and standards. More importantly, wildly popular and widely available entertainment-based games with educational components (i.e., edutainment do not necessarily promote scientific understanding. Generally, the purpose of games is entertainment. However, issues may arise if they are marketed as promoting or having a strong basis in content. In this study, we examine the simulation game Spore, which exhibits flawed scientific assumptions and may promote numerous misconceptions if used “as is” with students. We examine how a simple pedagogical adjustment to in a middle school science class may overcome the existing and designed limitations while yielding learning benefits. Specifically, we observe Spore’s influence on students’ conceptual understanding of natural selection when compared to a control group. The findings contribute to a growing body of literature that provides teachers with alternative methods for judicious technology integration, particularly with respect to the affordances of games and simulations like Spore.

  5. Research on Educational Standards in German Science Education--Towards a Model of Student Competences

    Science.gov (United States)

    Kulgemeyer, Christoph; Schecker, Horst

    2014-01-01

    This paper gives an overview of research on modelling science competence in German science education. Since the first national German educational standards for physics, chemistry and biology education were released in 2004 research projects dealing with competences have become prominent strands. Most of this research is about the structure of…

  6. A Model for Effective Professional Development of Formal Science Educators

    Science.gov (United States)

    Bleacher, L.; Jones, A. P.; Farrell, W. M.

    2015-12-01

    The Lunar Workshops for Educators (LWE) series was developed by the Lunar Reconnaissance Orbiter (LRO) education team in 2010 to provide professional development on lunar science and exploration concepts for grades 6-9 science teachers. Over 300 educators have been trained to date. The LWE model incorporates best practices from pedagogical research of science education, thoughtful integration of scientists and engineer subject matter experts for both content presentations and informal networking with educators, access to NASA-unique facilities, hands-on and data-rich activities aligned with education standards, exposure to the practice of science, tools for addressing common misconceptions, follow-up with participants, and extensive evaluation. Evaluation of the LWE model via pre- and post-assessments, daily workshop surveys, and follow-up surveys at 6-month and 1-year intervals indicate that the LWE are extremely effective in increasing educators' content knowledge, confidence in incorporating content into the classroom, understanding of the practice of science, and ability to address common student misconceptions. In order to address the efficacy of the LWE model for other science content areas, the Dynamic Response of Environments at Asteroids, the Moon, and moons of Mars (DREAM2) education team, funded by NASA's Solar System Exploration Research Virtual Institute, developed and ran a pilot workshop called Dream2Explore at NASA's Goddard Space Flight Center in June, 2015. Dream2Explore utilized the LWE model, but incorporated content related to the science and exploration of asteroids and the moons of Mars. Evaluation results indicate that the LWE model was effectively used for educator professional development on non-lunar content. We will present more detail on the LWE model, evaluation results from the Dream2Explore pilot workshop, and suggestions for the application of the model with other science content for robust educator professional development.

  7. A Model for Effective Professional Development of Formal Science Educators

    Science.gov (United States)

    Bleacher, L. V.; Jones, A. J. P.; Farrell, W. M.

    2015-01-01

    The Lunar Workshops for Educators (LWE) series was developed by the Lunar Reconnaissance Orbiter (LRO) education team in 2010 to provide professional development on lunar science and exploration concepts for grades 6-9 science teachers. Over 300 educators have been trained to date. The LWE model incorporates best practices from pedagogical research of science education, thoughtful integration of scientists and engineer subject matter experts for both content presentations and informal networking with educators, access to NASA-unique facilities, hands-on and data-rich activities aligned with education standards, exposure to the practice of science, tools for addressing common misconceptions, follow-up with participants, and extensive evaluation. Evaluation of the LWE model via pre- and post-assessments, daily workshop surveys, and follow-up surveys at 6-month and 1-year intervals indicate that the LWE are extremely effective in increasing educators' content knowledge, confidence in incorporating content into the classroom, understanding of the practice of science, and ability to address common student misconceptions. In order to address the efficacy of the LWE model for other science content areas, the Dynamic Response of Environments at Asteroids, the Moon, and moons of Mars (DREAM2) education team, funded by NASA's Solar System Exploration Research Virtual Institute, developed and ran a pilot workshop called Dream2Explore at NASA's Goddard Space Flight Center in June, 2015. Dream2Explore utilized the LWE model, but incorporated content related to the science and exploration of asteroids and the moons of Mars. Evaluation results indicate that the LWE model was effectively used for educator professional development on non-lunar content. We will present more detail on the LWE model, evaluation results from the Dream2Explore pilot workshop, and suggestions for the application of the model with other science content for robust educator professional development.

  8. Good practices to promote gender equality in science and physics in Tunisia

    Science.gov (United States)

    Jaziri, Sihem

    2015-12-01

    Women represent 47% of researchers in Tunisia but only 12% of senior faculty in scientific fields. This paper describes three areas of activity to promote greater participation of women. The Women in Science group at the University of Tunis has, among other activities, organized an annual conference on women in science since 2005. The COACh project is a multinational effort across northern Africa to promote professional networking and mentoring through partnerships with women in the United States. Finally, an immersive summer school was organized to introduce master's level women to projects and careers in optics and photonics.

  9. Good practices to promote gender equality in science and physics in Tunisia

    International Nuclear Information System (INIS)

    Jaziri, Sihem

    2015-01-01

    Women represent 47% of researchers in Tunisia but only 12% of senior faculty in scientific fields. This paper describes three areas of activity to promote greater participation of women. The Women in Science group at the University of Tunis has, among other activities, organized an annual conference on women in science since 2005. The COACh project is a multinational effort across northern Africa to promote professional networking and mentoring through partnerships with women in the United States. Finally, an immersive summer school was organized to introduce master’s level women to projects and careers in optics and photonics

  10. Good practices to promote gender equality in science and physics in Tunisia

    Energy Technology Data Exchange (ETDEWEB)

    Jaziri, Sihem [Faculty of Sciences of Bizerte, University of Carthage (Tunisia)

    2015-12-31

    Women represent 47% of researchers in Tunisia but only 12% of senior faculty in scientific fields. This paper describes three areas of activity to promote greater participation of women. The Women in Science group at the University of Tunis has, among other activities, organized an annual conference on women in science since 2005. The COACh project is a multinational effort across northern Africa to promote professional networking and mentoring through partnerships with women in the United States. Finally, an immersive summer school was organized to introduce master’s level women to projects and careers in optics and photonics.

  11. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. C S Yogananda. Articles written in Resonance – Journal of Science Education. Volume 1 Issue 1 January 1996 ... Galileo Galilei: Father of Modern Science · C S Yogananda · More Details Fulltext PDF. Volume 6 Issue 9 September 2001 pp 1-2 Editorial. Editorial.

  12. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Nirupama Raghavan. Articles written in Resonance – Journal of Science Education. Volume 9 Issue 5 May 2004 pp 72-78 Classroom. A Public Experiment in the History of Science Naked Eye Visibility of the Transit of Venus · Nirupama Raghavan · More Details ...

  13. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Roddam Narasimha. Articles written in Resonance – Journal of Science Education. Volume 1 Issue 2 February 1996 pp 6-11. Higher Education in India · Roddam Narasimha · More Details Fulltext PDF. Volume 4 Issue 1 January 1999 pp 76-79 Book Review.

  14. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. I Ceyhun. Articles written in Resonance – Journal of Science Education. Volume 9 Issue 6 June 2004 pp 86-91 Classroom. An Experiment for Teaching Chemical Kinetics in Chemical Education · I Ceyhun Z Karagölge · More Details Fulltext PDF ...

  15. Survival Analysis of Faculty Retention and Promotion in the Social Sciences by Gender.

    Directory of Open Access Journals (Sweden)

    Janet M Box-Steffensmeier

    Full Text Available Recruitment and retention of talent is central to the research performance of universities. Existing research shows that, while men are more likely than women to be promoted at the different stages of the academic career, no such difference is found when it comes to faculty retention rates. Current research on faculty retention, however, focuses on careers in science, technology, engineering, and mathematics (STEM. We extend this line of inquiry to the social sciences.We follow 2,218 tenure-track assistant professors hired since 1990 in seven social science disciplines at nineteen U.S. universities from time of hire to time of departure. We also track their time to promotion to associate and full professor. Using survival analysis, we examine gender differences in time to departure and time to promotion. Our methods account for censoring and unobserved heterogeneity, as well as effect heterogeneity across disciplines and cohorts.We find no statistically significant differences between genders in faculty retention. However, we do find that men are more likely to be granted tenure than women. When it comes to promotion to full professor, the results are less conclusive, as the effect of gender is sensitive to model specification.The results corroborate previous findings about gender patterns in faculty retention and promotion. They suggest that advances have been made when it comes to gender equality in retention and promotion, but important differences still persist.

  16. Potential of augmented reality in sciences education. A literature review.

    OpenAIRE

    Swensen, Håkon

    2016-01-01

    POTENTIAL OF AUGMENTED REALITY IN SCIENCES EDUCATION A LITERATURE REVIEW H. Swensen Oslo and Akershus University College of Applied Sciences (NORWAY) Fewer and fewer students in Europe choose STEM education, while in today's job market have a growing need for people with such education. There are many reasons for this situation, but one important factor is that many students perceive school science as difficult. In science, there are many complex and abstract concepts to be learned, which put...

  17. Overview of the First Forum about Informal Science Education

    Science.gov (United States)

    Lebron Santos, Mayra; Pantoja, Carmen

    2018-01-01

    The First Forum on Informal Science Education was held at the University of Puerto Rico in 2015. This Forum had the following goals:1. Gather for the first time professionals dedicated to public communication and science outreach in Puerto Rico. 2. Exchange experiences and dissemination strategies with international professional science communicators.3. Encourage a fruitful dialogue between communicators with experience in museums, the media, and the integration of sciences with the arts.4. Encourage dialogue between communicators to facilitate future collaborations.The invited speakers came from Ibero-America and addressed aspects of science communication in museums and the media, the dissemination of science through the arts, the participation of universities in informal science education and the formal education of science communicators. The participants included museum specialists, journalists, artists, outreach specialists, formal educators interested in science outreach, and college students. During the Forum special events for the public were coordinated to celebrate the International Year of Light (2015). The exhibit “Light: Beyond the Bulb” was displayed. Dr. Julieta Fierro, recipient of the prestigious Kalinga Prize for the Popularization of Science awarded by UNESCO, presented the public talk “Light in the Universe”. Dr. Inés Rodríguez Hidalgo, director of the Science Museum of Valladolid, presented the talk "O Sole Mío: An Invitation to Solar Physics". We present an overview of the forum and some critical reflections on the topics discussed.

  18. Tailoring science education graduate programs to the needs of science educators in low-income countries

    Science.gov (United States)

    Lunetta, Vincent N.; van den Berg, Euwe

    Science education graduate programs in high-income countries frequently enroll students from low-income countries. Upon admission these students have profiles of knowledge, skills, and experiences which can be quite different from those of students from the host high-income countries. Upon graduation, they will normally return to work in education systems with conditions which differ greatly from those in high-income countries. This article attempts to clarify some of the differences and similarities between such students. It offers suggestions for making graduate programs more responsive to the special needs of students from low-income countries and to the opportunities they offer for enhancing cross-cultural sensitivity. Many of the suggestions can be incorporated within existing programs through choices of elective courses and topics for papers, projects, and research. Many references are provided to relevant literature on cultural issues and on science education in low-income countries.

  19. THE ROLE OF SCHOOL TECHNICIANS IN PROMOTING SCIENCE THROUGH PRACTICAL WORK

    Directory of Open Access Journals (Sweden)

    Anne T. Helliar

    2011-11-01

    Full Text Available This is a review of the role of practical work in UK’s secondary school science lessons, the impact that practical work has in the promotion of science, the challenges created through use of non-specialist science teachers and a possible additional role for science technicians. The paper considers how improved deployment of suitably experienced school science technicians and their recognition, by schools’ management, for their involvement in the delivery of training in the use of practical work, for less experienced teachers, could benefit schools and their students. This together with its companion paper endeavours to show how the more effective use of practical work and technicians can encourage more students to select science at higher, non-compulsory levels.

  20. An exploratory examination of Islamic values in science education: Islamization of science teaching and learning via constructivism

    Science.gov (United States)

    Taşkın, Özgür

    2014-12-01

    This exploratory study outlines the perceptions of four Muslim graduate students regarding Islam and its influence on their approach to the teaching and learning of science. All of the four interviewees were enrolled in science related programmes at a Midwestern US university. The interview responses were evaluated both within the frame of the Islamization of science and Ian Barbour's (When science meets religion: enemies, strangers, or partners?, Harper, San Francisco, 2000) classification, which is based on four categories; conflict, independence, dialogue, and integration. Interviews were semi-structured and the data analyzed using a framework of typological and interpretive approaches (Hatch in Doing qualitative research in education settings, State University of New York Press, New York, 2002). The interview findings show that Barbour's classification is a useful tool for categorizing perceptions. However, these perceptions may fall into more than one category. A surprising side effect was the misinterpretation and misuse of constructivism as well as the notion of a scientific theory as ways to negate the theory of evolution, and promote the teaching of intelligent design. These misinterpretations and misuses occur because there is the belief that the interaction between science and religion in daily life is considered part of the cultural setting in Islamic countries, which is what students bring to the table, as well as the notion that reality can only be found in the Qur'an.

  1. Using Social Media to Promote Pre-Service Science Teachers' Practices of Socio-Scientific Issue (SSI) - Based Teaching

    Science.gov (United States)

    Pitiporntapin, Sasithep; Lankford, Deanna Marie

    2015-01-01

    This paper addresses using social media to promote pre-service science teachers' practices of Socio-Scientific Issue (SSI) based teaching in a science classroom setting. We designed our research in two phases. The first phase examined pre-service science teachers' perceptions about using social media to promote their SSI-based teaching. The…

  2. Education and Professional Outreach as an Integrated Component of Science and Graduate Education

    Science.gov (United States)

    Staudigel, H.; Koppers, A. A.

    2007-12-01

    Education and Professional Outreach (EPO) is increasingly becoming a substantive and much needed activity for scientists. Significant efforts are expended to satisfy funding agency requirements, but such requirements may also develop into a mutually beneficial collaboration between scientists and K-16 educators with a minimal impact on science productivity. We focus here on two particularly high impact EPO opportunities, hosting of high school interns and the inclusion of an educational component to a graduate student's&pthesis work. We emphasize the importance of hands-on collaboration with teachers and teacher-educators, and the substantive benefits of highly leveraged customized internet-distribution. We will present two examples for how we integrated this K-12 EPO into our university-based science and education efforts, what types of products emerged from these activities, and how such products may be widely produced by any scientist and disseminated to the educational community. High school seniors offer a unique resource to university EPO because some of them can substantively contribute to the science, and they can be very effective peer-mentors for high and middle schools. Extended internships may be built easily into the schedule of many senior high school student programs, and we were able to involve such interns into a three-week seagoing expedition. The seniors were responsible for our EPO by maintaining a cruise website and video conferencing with their high school. They added substantially to the science outcome, through programming and participating in a range of shipboard science chores. Graduate theses may be augmented with an educational component that places the main theme of the thesis into an educational setting. We designed and supervised such a Master's graduate thesis with an educational component on the geochronology of hot spot volcanoes, including a high school lesson plan, enactment in the classroom and preparation of a wide range of web

  3. Global Journal of Educational Research

    African Journals Online (AJOL)

    Global Journal of Education Research is aimed at promoting research in all areas of ... curriculum development, educational technology, foundation, administration etc. ... Innovative practices in science education: a panacea for improving ...

  4. Innovations in Undergraduate Science Education: Going Viral

    OpenAIRE

    Hatfull, Graham F.

    2015-01-01

    Bacteriophage discovery and genomics provides a powerful and effective platform for integrating missions in research and education. Implementation of the Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) program facilitates a broad impact by including a diverse array of schools, faculty, and students. The program generates new insights into the diversity and evolution of the bacteriophage population and presents a model for introducing first-yea...

  5. Science Education & Cultural Environments in the Americas. Report of the Inter-American Seminar on Science Education (Panama City, Panama, December 10-14, 1984).

    Science.gov (United States)

    Gallagher, James J., Ed.; Dawson, George, Ed.

    The impact of cultural background on science learning is explored in this compilation of papers and reports from an inter-American Seminar on science education. For the purposes of enriching science program planning, teacher education, research, and practice in the schools, varying ideas are offered on the effects of cultural background on science…

  6. ethiopian students' achievement challenges in science education

    African Journals Online (AJOL)

    IICBA01

    Oli Negassa. Adama Science and Technology University, Ethiopia ... achievement in science education across selected preparatory schools of Ethiopia. The .... To what extent do students' achievements vary across grade levels, regions,.

  7. Decolonizing Science and Science Education in a Postcolonial Space (Trinidad, a Developing Caribbean Nation, Illustrates

    Directory of Open Access Journals (Sweden)

    Laila N. Boisselle

    2016-03-01

    Full Text Available The article addresses how remnant or transformed colonialist structures continue to shape science and science education, and how that impact might be mitigated within a postcolonial environment in favor of the development of the particular community being addressed. Though cognizant of, and resistant to, the ongoing colonial impact globally and nationally (and any attempts at subjugation, imperialism, and marginalization, this article is not about anticolonial science. Indeed, it is realized that the postcolonial state of science and science education is not simply defined, and may exist as a mix of the scientific practices of the colonizer and the colonized. The discussion occurs through a generic postcolonial lens and is organized into two main sections. First, the discussion of the postcolonial lens is eased through a consideration of globalization which is held here as the new colonialism. The article then uses this lens to interrogate conceptions of science and science education, and to suggest that the mainstream, standard account of what science is seems to represent a globalized- or arguably a Western, modern, secular-conception of science. This standard account of science can act as a gatekeeper to the indigenous ways of being, knowing, and doing of postcolonial populations. The article goes on to suggest that as a postcolonial response, decolonizing science and science education might be possible through practices that are primarily contextually respectful and responsive. That is, localization is suggested as one possible antidote to the deleterious effects of globalization. Trinidad, a postcolonial developing Caribbean nation, is used as illustration.

  8. Female distance education students overtaking males in science ...

    African Journals Online (AJOL)

    This study was initiated to compare the performance of male and female distance education students of the University of Education, Winneba in Integrated Science. This was done by randomly selecting the cumulated grades of male and female students of 2002, 2003 and 2004-year groups in Integrated Science for analysis ...

  9. Mind Maps as Facilitative Tools in Science Education

    Science.gov (United States)

    Safar, Ammar H.; Jafer,Yaqoub J.; Alqadiri, Mohammad A.

    2014-01-01

    This study explored the perceptions, attitudes, and willingness of pre-service science teachers in the College of Education at Kuwait University about using concept/mind maps and its related application software as facilitative tools, for teaching and learning, in science education. The first level (i.e., reaction) of Kirkpatrick's/Phillips'…

  10. Promoting Compulsory Education in Rural China: What Are the NPOs Doing?

    Science.gov (United States)

    Zhou, Huiquan

    2012-01-01

    Due to imbalanced social and economic development, education in poverty-stricken rural areas in China is lagging behind that of urban areas. The current study explores the role of the nonprofit organizations (NPOs) involved in rural compulsory education promotion. Results show that the NPOs are providing a variety of programs to promote rural…

  11. Integrating Inquiry-Based Science and Education Methods Courses in a "Science Semester" for Future Elementary Teachers

    Science.gov (United States)

    Madsen, J.; Fifield, S.; Allen, D.; Brickhouse, N.; Dagher, Z.; Ford, D.; Shipman, H.

    2001-05-01

    In this NSF-funded project we will adapt problem-based learning (PBL) and other inquiry-based approaches to create an integrated science and education methods curriculum ("science semester") for elementary teacher education majors. Our goal is to foster integrated understandings of science and pedagogy that future elementary teachers need to effectively use inquiry-based approaches in their classrooms. This project responds to calls to improve science education for all students by making preservice teachers' experiences in undergraduate science courses more consistent with reforms at the K-12 level. The involved faculty teach three science courses (biology, earth science, physical science) and an elementary science education methods course that are degree requirements for elementary teacher education majors. Presently, students take the courses in variable sequences and at widely scattered times. Too many students fail to appreciate the value of science courses to their future careers as teachers, and when they reach the methods course in the junior year they often retain little of the science content studied earlier. These episodic encounters with science make it difficult for students to learn the content, and to translate their understandings of science into effective, inquiry-based teaching strategies. To encourage integrated understandings of science concepts and pedagogy we will coordinate the science and methods courses in a junior-year science semester. Traditional subject matter boundaries will be crossed to stress shared themes that teachers must understand to teach standards-based elementary science. We will adapt exemplary approaches that support both learning science and learning how to teach science. Students will work collaboratively on multidisciplinary PBL activities that place science concepts in authentic contexts and build learning skills. "Lecture" meetings will be large group active learning sessions that help students understand difficult

  12. Education sciences, schooling, and abjection: recognizing ...

    African Journals Online (AJOL)

    people to that future. The double gestures continue in contemporary school reform and its sciences. ... understand their different cultural theses about cosmopolitan modes of life and the child cast out as different and ... Keywords: educational sciences; history of present; politics of schooling; reform; social inclusion/exclusion

  13. Planetary Science Educational Materials for Out-of-School Time Educators

    Science.gov (United States)

    Barlow, Nadine G.; Clark, Joelle G.

    2017-10-01

    Planetary Learning that Advances the Nexus of Engineering, Technology, and Science (PLANETS) is a five-year NASA-funded (NNX16AC53A) interdisciplinary and cross-institutional partnership to develop and disseminate STEM out-of-school time (OST) curricular and professional development units that integrate planetary science, technology, and engineering. The Center for Science Teaching and Learning (CSTL) and Department of Physics and Astronomy (P&A) at Northern Arizona University, the U.S. Geological Survey Astrogeology Science Center (USGS ASC), and the Museum of Science Boston (MoS) are partners in developing, piloting, and researching the impact of three out-of-school time units. Planetary scientists at USGS ASC and P&A have developed two units for middle grades youth and one for upper elementary aged youth. The two middle school units focus on greywater recycling and remote sensing of planetary surfaces while the elementary unit centers on exploring space hazards. All units are designed for small teams of ~4 youth to work together to investigate materials, engineer tools to assist in the explorations, and utilize what they have learned to solve a problem. Youth participate in a final share-out with adults and other youth of what they learned and their solution to the problem. Curriculum pilot testing of the two middle school units has begun with out-of-school time educators. A needs assessment has been conducted nationwide among educators and evaluation of the curriculum units is being conducted by CSTL during the pilot testing. Based on data analysis, the project is developing and testing four tiers of professional support for OST educators. Tier 1 meets the immediate needs of OST educators to teach curriculum and include how-to videos and other direct support materials. Tier 2 provides additional content and pedagogical knowledge and includes short content videos designed to specifically address the content of the curriculum. Tier 3 elaborates on best practices

  14. Effects of 3D Printing Project-based Learning on Preservice Elementary Teachers' Science Attitudes, Science Content Knowledge, and Anxiety About Teaching Science

    Science.gov (United States)

    Novak, Elena; Wisdom, Sonya

    2018-05-01

    3D printing technology is a powerful educational tool that can promote integrative STEM education by connecting engineering, technology, and applications of science concepts. Yet, research on the integration of 3D printing technology in formal educational contexts is extremely limited. This study engaged preservice elementary teachers (N = 42) in a 3D Printing Science Project that modeled a science experiment in the elementary classroom on why things float or sink using 3D printed boats. The goal was to explore how collaborative 3D printing inquiry-based learning experiences affected preservice teachers' science teaching self-efficacy beliefs, anxiety toward teaching science, interest in science, perceived competence in K-3 technology and engineering science standards, and science content knowledge. The 3D printing project intervention significantly decreased participants' science teaching anxiety and improved their science teaching efficacy, science interest, and perceived competence in K-3 technological and engineering design science standards. Moreover, an analysis of students' project reflections and boat designs provided an insight into their collaborative 3D modeling design experiences. The study makes a contribution to the scarce body of knowledge on how teacher preparation programs can utilize 3D printing technology as a means of preparing prospective teachers to implement the recently adopted engineering and technology standards in K-12 science education.

  15. Resonance – Journal of Science Education | Indian Academy of ...

    Indian Academy of Sciences (India)

    Home; Journals; Resonance – Journal of Science Education. Harold A Scheraga. Articles written in Resonance – Journal of Science Education. Volume 8 Issue 6 June 2003 pp 2-5 Article-in-a-Box. Paul J. Flory – The Man Who Laid the Foundations of Modern Polymer Science · Harold A Scheraga · More Details Fulltext ...

  16. Education, outreach, and inclusive engagement: Towards integrated indicators of successful program outcomes in participatory science.

    Science.gov (United States)

    Haywood, Benjamin K; Besley, John C

    2014-01-01

    The use and utility of science in society is often influenced by the structure, legitimacy, and efficacy of the scientific research process. Public participation in scientific research (PPSR) is a growing field of practice aimed at enhancing both public knowledge and understanding of science (education outreach) and the efficacy and responsiveness of scientific research, practice, and policy (participatory engagement). However, PPSR objectives focused on "education outreach" and "participatory engagement" have each emerged from diverse theoretical traditions that maintain distinct indicators of success used for program development and evaluation. Although areas of intersection and overlap among these two traditions exist in theory and practice, a set of comprehensive standards has yet to coalesce that supports the key principles of both traditions in an assimilated fashion. To fill this void, a comprehensive indicators framework is proposed with the goal of promoting a more integrative and synergistic PPSR program development and assessment process.

  17. African Journal of Educational Studies in Mathematics and Sciences ...

    African Journals Online (AJOL)

    African Journal of Educational Studies in Mathematics and Sciences: Advanced Search. Journal Home > African Journal of Educational Studies in Mathematics and Sciences: Advanced Search. Log in or Register to get access to full text downloads.

  18. Science and technology related global problems: An international survey of science educators

    Science.gov (United States)

    Bybee, Rodger W.; Mau, Teri

    This survey evaluated one aspect of the Science-Technology-Society theme, namely, the teaching of global problems related to science and technology. The survey was conducted during spring 1984. Two hundred sixty-two science educators representing 41 countries completed the survey. Response was 80%. Findings included a ranking of twelve global problems (the top six were: World Hunger and Food Resources, Population Growth, Air Quality and Atmosphere, Water Resources, War Technology, and Human Health and Disease). Science educators generally indicated the following: the science and technology related global problems would be worse by the year 2000; they were slightly or moderately knowledgeable about the problems; print, audio-visual media, and personal experiences were their primary sources of information; it is important to study global problems in schools; emphasis on global problems should increase with age/grade level; an integrated approach should be used to teach about global problems; courses including global problems should be required of all students; most countries are in the early stages of developing programs including global problems; there is a clear trend toward S-T-S; there is public support for including global problems; and, the most significant limitations to implementation of the S-T-S theme (in order of significance) are political, personnel, social, psychological, economic, pedagogical, and physical. Implications for research and development in science education are discussed.

  19. Collaborative learning in radiologic science education.

    Science.gov (United States)

    Yates, Jennifer L

    2006-01-01

    Radiologic science is a complex health profession, requiring the competent use of technology as well as the ability to function as part of a team, think critically, exercise independent judgment, solve problems creatively and communicate effectively. This article presents a review of literature in support of the relevance of collaborative learning to radiologic science education. In addition, strategies for effective design, facilitation and authentic assessment of activities are provided for educators wishing to incorporate collaborative techniques into their program curriculum. The connection between the benefits of collaborative learning and necessary workplace skills, particularly in the areas of critical thinking, creative problem solving and communication skills, suggests that collaborative learning techniques may be particularly useful in the education of future radiologic technologists. This article summarizes research identifying the benefits of collaborative learning for adult education and identifying the link between these benefits and the necessary characteristics of medical imaging technologists.

  20. Collaboration between science teacher educators and science faculty from arts and sciences for the purpose of developing a middle childhood science teacher education program: A case study

    Science.gov (United States)

    Buck, Gayle A.

    1998-12-01

    The science teacher educators at a midwestern university set a goal to establish a collaborative relationship between themselves and representatives from the College of Arts & Sciences for the purpose of developing a middle childhood science education program. The coming together of these two faculties provided a unique opportunity to explore the issues and experiences that emerge as such a collaborative relationship is formed. In order to gain a holistic perspective of the collaboration, a phenomenological case study design and methods were utilized. The study took a qualitative approach to allow the experiences and issues to emerge in a naturalistic manner. The question, 'What are the issues and experiences that emerge as science teacher educators and science faculty attempt to form a collaborative relationship for the purpose of developing a middle childhood science teacher program?' was answered by gathering a wealth of data. These data were collected by means of semi-structured interviews, observations and written document reviews. An overall picture was painted of the case by means of heuristic, phenomenological, and issues analyses. The researcher followed Moustakas' Phases of Heuristic Research to answer the questions 'What does science mean to me?' and 'What are my beliefs about the issues guiding this case?' prior to completing the phenomenological analysis. The phenomenological analysis followed Moustakas' 'Modification of the Van Kaam Methods of Analysis of Phenomenological Data'. This inquiry showed that the participants in this study came to the collaboration for many different reasons and ideas about the purpose for such a relationship. The participants also had very different ideas about how such a relationship should be conducted. These differences combined to create some issues that affected the development of curriculum and instruction. The issues involved the lack of (a) mutual respect for the work of the partners, (b) understanding about the