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Science, technology, society and environment education
About: Science, technology, society and environment education is a research topic. Over the lifetime, 10644 publications have been published within this topic receiving 261416 citations.
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08 Dec 1993
TL;DR: In this article, the authors present the following categories: elementary and secondary science and mathematics education, higher education in science and engineering, academic research and development, public attitudes and public understanding.
Abstract: : 1. Elementary and Secondary Science and Mathematics Education. 2. Higher Education in Science and Engineering. 3. Science and Engineering Workforce. 4. Research & Development: Financial Resources and Instituional Linkages. 5. Academic Research and Development: Financial Resources, Personnel, and Outputs. 6. Technology Development and competitiveness. 7. Science and Technology: Public Attitudes and Public Understanding.
3,343 citations
TL;DR: In this article, a new type of science called post-normal science is proposed to cope with many uncertainties in policy issues of risk and the environment, which can provide a path to the democratization of science, and also a response to the current tendencies to post-modernity.
3,306 citations
TL;DR: A review of the major literature about attitudes to science and its implications over the past 20 years is presented in this paper, where the authors argue that the continuing decline in numbers choosing to study science at the point of choice requires a research focus on students' attitudes to Science if the nature of the problem is to be understood and remediated.
Abstract: This article offers a review of the major literature about attitudes to science and its implications over the past 20 years. It argues that the continuing decline in numbers choosing to study science at the point of choice requires a research focus on students’ attitudes to science if the nature of the problem is to be understood and remediated. Starting from a consideration of what is meant by attitudes to science, it considers the problems inherent to their measurement, what is known about students’ attitudes towards science and the many factors of influence such as gender, teachers, curricula, cultural and other variables. The literature itself points to the crucial importance of gender and the quality of teaching. Given the importance of the latter we argue that there is a greater need for research to identify those aspects of science teaching that make school science engaging for pupils. In particular, a growing body of research on motivation offers important pointers to the kind of classroom environment and activities that might raise pupils’ interest in studying school science and a focus for future research.
2,742 citations
TL;DR: This paper presents a meta-analyses of the chiral stationary phase of the LaSalle-Seiden–Seiden virus, which has implications for the design of vaccines and their application in the treatment of infectious disease.
Abstract: Author(s): Robert W. Kates, William C. Clark, Robert Corell, J. Michael Hall, Carlo C. Jaeger, Ian Lowe, James J. McCarthy, Hans Joachim Schellnhuber, Bert Bolin, Nancy M. Dickson, Sylvie Faucheux, Gilberto C. Gallopin, Arnulf Grübler, Brian Huntley, Jill Jäger, Narpat S. Jodha, Roger E. Kasperson, Akin Mabogunje, Pamela Matson, Harold Mooney, Berrien Moore III, Timothy O'Riordan, Uno Svedin Reviewed work(s): Source: Science, New Series, Vol. 292, No. 5517 (Apr. 27, 2001), pp. 641-642 Published by: American Association for the Advancement of Science Stable URL: http://www.jstor.org/stable/3083523 . Accessed: 28/02/2012 04:14
2,107 citations
TL;DR: Hofstein and Lunetta as mentioned in this paper conducted a review of the research on the school science laboratory and found that the laboratory has a central and distinctive role in science education, and science educators have suggested that rich benefits in learning accrue from using laboratory activities.
Abstract: The laboratory has been given a central and distinctive role in science education, and science educators have suggested that rich benefits in learning accrue from using laboratory activities. Twenty years have been elapsed since we published a frequently cited, critical review of the research on the school science laboratory (Hofstein & Lunetta, Rev. Educ. Res.52(2), 201–217, 1982). Twenty years later, we are living in an era of dramatic new technology resources and new standards in science education in which learning by inquiry has been given renewed central status. Methodologies for research and assessment that have developed in the last 20 years can help researchers seeking to understand how science laboratory resources are used, how students' work in the laboratory is assessed, and how science laboratory activities can be used by teachers to enhance intended learning outcomes. In that context, we take another look at the school laboratory in the light of contemporary practices and scholarship. This analysis examines scholarship that has emerged in the past 20 years in the context of earlier scholarship, contemporary goals for science learning, current models of how students construct knowledge, and information about how teachers and students engage in science laboratory activities. © 2003 Wiley Periodicals, Inc. Sci Ed88:28–54, 2004; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/.sce10106
2,084 citations