In this essay, we review research from the social sciences on how the public makes sense of and participates in societal decisions about science and technology. We specifically highlight the role of the media and public communication in this process, challenging the still dominant assumption that science literacy is both the problem and the solution to societal conflicts. After reviewing the cases of evolution, climate change, food biotechnology, and nanotechnology, we offer a set of detailed recommendations for improved public engagement efforts on the part of scientists and their
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Matthew NisbetDietram Scheufele
resourceresearchProfessional Development, Conferences, and Networks
On July 12, 1974, the National Research Act (Pub. L. 93-348) was signed into law, there-by creating the National Commission for the Protection of Human Subjects of Biomedical and Behavioral Research. One of the charges to the Commission was to identify the basic ethical principles that should underlie the conduct of biomedical and behavioral research involving human subjects and to develop guidelines which should be followed to assure that such research is conducted in accordance with those principles. In carrying out the above, the Commission was directed to consider: (i) the boundaries
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U.S. Department of Health, Education, and Welfare
Historically, most of the focus of science education has been on pre-college and college level schooling. Although some of the public's interest and knowledge about science is unquestionably shaped by compulsory schooling, given that the average adult spends only a fraction of their life participating in some kind of formal schooling, we argue that the contribution of school-based science learning to the long-term public understanding of science is limited, particularly for the majority of Americans who do not go on to post-secondary schooling. This article shows that the majority of the
In October 2012, the National Science Foundation (NSF) released a new version of the Grant Proposal Guide (GPG) that included significant changes to the review elements and considerations underlying the Merit Review Criteria. This was the first major revision of the Criteria in 15 years. Of particular note were significant changes to the criteria used by panelists, reviewers, and program officers to evaluate a proposal’s broader impacts. To help inform Florida ocean scientists of these changes in anticipation of proposal submission deadlines in early 2013, the Center for Ocean Sciences
This volume explores the integration of recent research on everyday, classroom, and professional scientific thinking. It brings together an international group of researchers to present core findings from each context; discuss connections between contexts, and explore structures; technologies, and environments to facilitate the development and practice of scientific thinking. The chapters focus on: * situations from young children visiting museums, * middle-school students collaborating in classrooms, * undergraduates learning about research methods, and * professional scientists engaged in
Current accounts of the development of scientific reasoning focus on individual children's ability to coordinate the collection and evaluation of evidence with the creation of theories to explain the evidence. This observational study of parent–child interactions in a children's museum demonstrated that parents shape and support children's scientific thinking in everyday, nonobligatory activity. When children engaged an exhibit with parents, their exploration of evidence was observed to be longer, broader, and more focused on relevant comparisons than children who engaged the exhibit without
This article provides an overview of current understandings of the science learning that occurs as a consequence of visiting a free-choice learning setting like a science museum. The best available evidence indicates that if you want to understand learning at the level of individuals within the real world, learning does functionally differ depending upon the conditions, i.e., the context, under which it occurs. Hence, learning in museums is different than learning in any other setting. The contextual model of learning provides a way to organize the myriad specifics and details that give
In the spring of 1999, the Board of the National Association of Research in Science Teaching (NARST) established an Informal Science Education Ad Hoc committee, co-chaired by Lynn Dierking and John Falk. The Committee's task was to focus on the organization's positioning in regard to out-of-school science education. After 2 years of work, the committee composed a policy statement, included below, that was presented to, and accepted by, the NARST board. The policy statement defines this arena of research, describes a variety of out-of-school environments in which science learning occurs
There is no single right way to learn things, and no single place or even moment in which we learn. All learning happens continuously, from many different sources, and in many different ways. There are three main educational sectors, the formal education sector of schools and universities, the workplace, and the free-choice learning sector. Of the three, the most frequently over-looked is the free-choice learning sector. The free-choice learning sector includes museums, television, radio, the Internet, magazines, newspapers, books, parks, community organizations of all types: youth, adult
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Institute for Learning InnovationJohn H Falk
This article explores the development of observation in scientific and everyday contexts. Fundamental to all scientific activity, expert observation is a complex practice that requires the coordination of disciplinary knowledge, theory, and habits of attention. On the surface, observation appears to be a simple skill. Consequently, children may be directed to observe, compare, and describe phenomena without adequate disciplinary context or support, and so fail to gain deeper scientific understanding. Drawing upon a review of science education, developmental psychology, and the science studies
The science museum field has made tremendous advances in understanding museum learning, but little has been done to consolidate and synethesize these findings to encourage widespread improvements in practice. By clearly presenting the most current knowledge of museum learning, In Principle, In Practice aims to promote effective programs and exhibitions, identify promising approaches for future research, and develop strategies for implementing and sustaining connections between research and practice in the museum community.
GLOBAL WARMING: UNDERSTANDING THE FORECAST. American Museum of Natural History, New York, NY (May 15, 1992 - January 19, 1993); Museum of Natural History of Los Angeles County (April 3 - July 25, 1993); Carnegie Science Center, Pittsburgh, PA (September 24,1993 - February 13, 1994); Denver Museum of Natural History (November 24, 1994 - March 26, 1995); St. Louis Science Center (May 26 - October 15, 1995); National Museum of Natural History, Washington, DC (December 15, 1995 - May 5, 1996).