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Toumey focuses on the ways in which the symbols of science are employed to signify scientific authority in a variety of cases, from the selling of medical products to the making of public policy about AIDS/HIV--a practice he calls "conjuring" science. It is this "conjuring" of the images and symbols of scientific authority that troubles Toumey and leads him to reflect on the history of public understanding and perceptions of science in the United States.
Conjuring Science explores the history of magic shows and scientific entertainment. It follows the frictions and connections of magic and science as they occurred in the world of popular entertainment in France from the mid-eighteenth to the early twentieth century. It situates conjurers within the broader culture of science and argues that stage magic formed an important popular conduit for science and scientific enthusiasm during this period. From the scientific recreations of the fairs to the grand illusions of the theatre stage and the development of early cinema, conjurers used and were inspired by scientific and technological innovations to create illusions, provoke a sense of wonder, and often even instruct their audience. In their hands, science took on many meanings and served different purposes: it was a set of pleasant facts and recreational demonstrations upon which to draw; it was the knowledge presented in various scientific lectures accompanied by optical projections at magic shows; it was the techniques necessary to create illusions and effects on stage and later on at the cinema; and it was a way to separate conjuring from the deceit of mediums, mystical showmen and quacks in order to gain a better standing within an increasingly scientifically-minded society.
The marvellous complexity of the Universe emerges from several deep laws and a handful of fundamental constants that fix its shape, scale, and destiny. Peter Atkins identifies the minimum decisions that would be needed for the Universe to behave as it does, arguing that the laws of Nature can spring from very little. Or perhaps from nothing at all.
This book's structure reflects the different dimensions to learning science. The first section focuses on the importance of talk in the science classroom, while the second explores the key role of practical work. The third section is concerned with the creative, theoretical aspect of science. Section four follows this by considering the communication of ideas and how pupils learn to participate in the discourse of the scientific community. Section five emphasizes the place of science in the broader context, considering its moral and ethical dimensions and its place in a cultural context. Finally, section six explores the complexity of the task faced by science teachers, highlighting the knowledge and skills science teachers must acquire in order to create an environment in which students are motivated to learn science.
A former Wisconsin high school science teacher makes the case that how and why we teach science matters, especially now that its legitimacy is under attack. Why teach science? The answer to that question will determine how it is taught. Yet despite the enduring belief in this country that science should be taught, there has been no enduring consensus about how or why. This is especially true when it comes to teaching scientific process. Nearly all of the basic knowledge we have about the world is rock solid. The science we teach in high schools in particular—laws of motion, the structure of the atom, cell division, DNA replication, the universal speed limit of light—is accepted as the way nature works. Everyone also agrees that students and the public more generally should understand the methods used to gain this knowledge. But what exactly is the scientific method? Ever since the late 1800s, scientists and science educators have grappled with that question. Through the years, they’ve advanced an assortment of strategies, ranging from “the laboratory method” to the “five-step method” to “science as inquiry” to no method at all. How We Teach Science reveals that each strategy was influenced by the intellectual, cultural, and political circumstances of the time. In some eras, learning about experimentation and scientific inquiry was seen to contribute to an individual’s intellectual and moral improvement, while in others it was viewed as a way to minimize public interference in institutional science. John Rudolph shows that how we think about and teach science will either sustain or thwart future innovation, and ultimately determine how science is perceived and received by the public.
Science is a defining feature of the modern world, and popular science is where most of us make sense of that fact. Understanding Popular Scienceprovides a framework to help understand the development of popular science and current debates about it. In a lively and accessible style, Peter Broks shows how popular science has been invented, redefined and fought over. From early-nineteenth century radical science to twenty-first century government initiatives, he examines popular science as an arena where the authority of science and the authority of the state are legitimized and challenged. The book includes clear accounts of the public perception of scientists, visions of the future, fears of an “anti-science†movement and concerns about scientific literacy. The final chapter proposes a new model for understanding the interaction between lay and expert knowledge. This book is essential reading in cultural studies, science studies, history of science and science communication.
The growing field of literature and science is for the first time given a fully theorized overview. Using case studies from a three hundred year history, Sleigh focuses on literary form and argues that novels did not just reflect or inform areas of science, but were part of a broader, ongoing cultural negotiation about how to read things.
In the days of global warming and BSE, science is increasingly a public issue. This book provides a theoretical framework which allows us to understand why and how scientists address the general public. The author develops the argument that turning to the public is not simply a response to inaccurate reporting by journalists or to public curiosity, nor a wish to gain recognition and additional funding. Rather, it is a tactic to which the scientific community are pushed by certain "internal" crisis situations. Bucchi examines three cases of scientists turning to the public: the cold fusion case, the COBE/Big Bang issue and Louis Pasteur's public demonstration of the anthrax vaccine, a historical case of "public science." Finally, Bucchi presents his unique model of communications between science and the public, carried out through the media. This is a thoughtful and wide-ranging treatment of complex contemporary issues, touching upon the history and sociology of science, communication and media studies. Bucchi's theories on scientific communication in the media are a valuable contribution to the current debate on this subject.
This anthology contains selected papers from the 'Science as Culture' conference held at Lake Como, and Pavia University Italy, 15-19 September 1999. The conference, attended by about 220 individuals from thirty countries, was a joint venture of the International History, Philosophy and Science Teaching Group (its fifth conference) and the History of Physics and Physics Teaching Division of the European Physical Society (its eighth conference). The magnificient Villa Olmo, on the lakeshore, provided a memorable location for the presentors of the 160 papers and the audience that discussed them. The conference was part of local celebrations of the bicentenary of Alessandro Volta's creation of the battery in 1799. Volta was born in Como in 1745, and for forty years from 1778 he was professor of experimental physics at Pavia University. The conference was fortunate to have had the generous financial support of the Italian government's Volta Bicentenary Fund, Lombardy region, Pavia University, Italian Research Council, and Kluwer Academic Publishers. The papers included here, have or will be, published in the journal Science & Education, the inaugural volume (1992) of which was a landmark in the history of science education publication, because it was the first journal in the field devoted to contributions from historical, philosophical and sociological scholarship. Clearly these 'foundational' disciplines inform numerous theoretical, curricular and pedagogical debates in science education. Contemporary Concerns The reseach promoted by the International and European Groups, and by the journal, is central to science education programmes in most areas of the world.