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Education policy encourages students to study a broad range of AS levels in their first post-16 year. The AS Science for Public Understanding course offers science for non-science specialists. This work aims to offer an understanding of science for those studying mainly arts A Levels
Wolpert draws on the entire history of science, from Thales of Miletus to Watson and Crick, from the study of eugenics to the discovery of the double helix. The result is a scientist's view of the culture of science, authoritative, informed, and mercifully accessible to those who find cohabiting with this culture a puzzling experience.
'This is a welcome book. The issues of public understanding of science open many questions. What does "understanding" mean? How does understanding translate into attitudes towards science and trust in scientists? What is the role of the mass media? The essays in this book shed light on such questions bringing insights from several disciplines. They help to define a meaningful research agenda for the future. - Professor Dorothy Nelkin, New York University
The relationship between science and belief has been a prominent subject of public debate for many years, one that has relevance to everything from science communication, health and education to immigration and national values. Yet, sociological analysis of these subjects remains surprisingly scarce. This wide-ranging book critically reviews the ways in which religious and non-religious belief systems interact with scientific theories and practices. Contributors explore how, for some secularists, ‘science’ forms an important part of social identity. Others examine how many contemporary religious movements justify their beliefs by making a claim upon science. Moving beyond the traditional focus on the United States, the book shows how debates about science and belief are firmly embedded in political conflict, class, community and culture.
Comprehensive yet accessible, this key Handbook provides an up-to-date overview of the fast growing and increasingly important area of ‘public communication of science and technology’, from both research and practical perspectives. As well as introducing the main issues, arenas and professional perspectives involved, it presents the findings of earlier research and the conclusions previously drawn. Unlike most existing books on this topic, this unique volume couples an overview of the practical problems faced by practitioners with a thorough review of relevant literature and research. The practical Handbook format ensures it is a student-friendly resource, but its breadth of scope and impressive contributors means that it is also ideal for practitioners and professionals working in the field. Combining the contributions of different disciplines (media and journalism studies, sociology and history of science), the perspectives of different geographical and cultural contexts, and by selecting key contributions from appropriate and well-respected authors, this original text provides an interdisciplinary as well as a global approach to public communication of science and technology.
In this 1974 book a practising scientist and gifted expositor sets forth an exciting point of view on the nature of science and how it works. Professor Ziman argues that the true goal of all scientific research is to contribute to the consensus of universally accepted knowledge. He explores the philosophical, psychological and sociological consequences of the principle, and explains how, in practice, the consensus is established and how the work of the individual scientist becomes a part of it. The intellectual form of scientific knowledge is determined by the need for the scientist to communicate his findings and to make them acceptable to others. Professor Ziman's essay, being written in plain English, and requiring only the slenderest knowledge of science, can (and should) be read by any educated person; as he says 'all genuine scientific procedures of thought and argument are essentially the same as those of everyday life'.
A path-breaking journey into the brain, showing how perception, thought, and action are products of "maps" etched into your gray matter--and how technology can use them to read your mind.
Most people believe that science arose as a natural end-product of our innate intelligence and curiosity, as an inevitable stage in human intellectual development. But physicist and educator Alan Cromer disputes this belief. Cromer argues that science is not the natural unfolding of human potential, but the invention of a particular culture, Greece, in a particular historical period. Indeed, far from being natural, scientific thinking goes so far against the grain of conventional human thought that if it hadn't been discovered in Greece, it might not have been discovered at all. In Uncommon Sense, Alan Cromer develops the argument that science represents a radically new and different way of thinking. Using Piaget's stages of intellectual development, he shows that conventional thinking remains mired in subjective, "egocentric" ways of looking at the world--most people even today still believe in astrology, ESP, UFOs, ghosts and other paranormal phenomena--a mode of thought that science has outgrown. He provides a fascinating explanation of why science began in Greece, contrasting the Greek practice of debate to the Judaic reliance on prophets for acquiring knowledge. Other factors, such as a maritime economy and wandering scholars (both of which prevented parochialism) and an essentially literary religion not dominated by priests, also promoted in Greece an objective, analytical way of thinking not found elsewhere in the ancient world. He examines India and China and explains why science could not develop in either country. In China, for instance, astronomy served only the state, and the private study of astronomy was forbidden. Cromer also provides a perceptive account of science in Renaissance Europe and of figures such as Copernicus, Galileo, and Newton. Along the way, Cromer touches on many intriguing topics, arguing, for instance, that much of science is essential complete; there are no new elements yet to be discovered. He debunks the vaunted SETI (Search for Extraterrestrial Intelligence) project, which costs taxpayers millions each year, showing that physical limits--such as the melting point of metal--put an absolute limit on the speed of space travel, making trips to even the nearest star all but impossible. Finally, Cromer discusses the deplorable state of science education in America and suggests several provocative innovations to improve high school education, including a radical proposal to give all students an intensive eighth and ninth year program, eliminating the last two years of high school. Uncommon Sense is an illuminating look at science, filled with provocative observations. Whether challenging Thomas Kuhn's theory of scientific revolutions, or extolling the virtues of Euclid's Elements, Alan Cromer is always insightful, outspoken, and refreshingly original.
Science in the Public Sphere presents a broad yet detailed picture of the history of science popularization from the Renaissance to the twenty-first century. Global in focus, it provides an original theoretical framework for analysing the political load of science as an instrument of cultural hegemony and giving a voice to expert and lay protagonists throughout history. Organised into a series of thematic chapters spanning diverse periods and places, this book covers subjects such as the representations of science in print, the media, classrooms and museums, orthodox and heterodox practices, the intersection of the history of science with the history of technology, and the ways in which public opinion and scientific expertise have influenced and shaped one another across the centuries. It concludes by introducing the "participatory turn" of the twenty-first century, a new paradigm of science popularization and a new way of understanding the construction of knowledge. Highly illustrated throughout and covering the recent historiographical scholarship on the subject, this book is valuable reading for students, historians, science communicators, and all those interested in the history of science and its relationship with the public sphere.
The benefits of modern technology often involve health, safety and environmental risks that produce public suspicion of technologies and aversion to certain products and substances. Amplified by the pervasive power of the media, public concern about health and ecological risks can have enormous economic and social impacts, such as the 'stigmatization' experienced in recent years with nuclear power, British beef and genetically modified plants. This volume presents the most current and comprehensive examination of how and why stigma occurs and what the appropriate responses to it should be to inform the public and reduce undesirable impacts. Each form of stigma is thoroughly explored through a range of case studies. Theoretical contributions look at the roles played by government and business, and the crucial impact of the media in forming public attitudes. Stigma is not always misplaced, and the authors discuss the challenges involved in managing risk and reducing the vulnerability of important products, industries and institutions while providing the public with the relevant information they need about risks.