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J. D. Bernal's important and ambitious work, The Social Function of Science, was first published in January 1939. As the subtitle -What Science Does, What Science Could Do - suggests it is in two parts. Both have eight chapters. Part 1: What Science Does: Introductory, Historical, The Existing Organization of Scientific Research in Britain, Science in Education, The Efficiency of Scientific Research, The Application of Science, Science and War and International Science. Part 11: What Science Could Do: The Training of the Scientist, The Reorganization of Research, Scientific Communication, The Finance of Science, The Strategy of Scientific Advance; Science in the Service of Man, Science and Social Transformation and The Social Function of Science. To quote Bernal's biographer, Andrew Brown, 'The Social Function of Science . . . was Bernal's attempt to ensure that science would no longer be just a protected area of intellectual inquiry, but would have as an inherent function the improvement of life for mankind everywhere. It was a groundbreaking treatise both in exploring the scope of science and technology in fashioning public policy, with Bernal arguing that science is the chief agent of change in society, and in devising policies that would optimize the way science was organized. The sense of impending war clearly emerges. Bernal deplored the application of scientific discoveries in making war ever more destructive, while acknowledging that the majority of scientific and technical breakthroughs have their origins in military exigencies, both because of the willingness to spend money and the premium placed on novelty during wartime.' Anticipating by two decades the schism C. P. Snow termed 'The Two Cultures', Bernal remarked that 'highly developed science stands almost isolated from a traditional literary culture.' He found that wrong. Again, quoting Andrew Brown, 'to him, science was a creative endeavour that still depended on inspiration and talent, just as much as in painting, writing or composing.' The importance of this book was such that twenty-five years after its publication, a collection of essays, The Science of Science, was published, in part in celebration, but also to explore many of the themes Bernal had first developed.
As the need for sustainable development practices around the world continues to grow, it has become imperative for citizens to become actively engaged in the global transition. By evaluating data collected from various global programs, researchers are able to identify strategies and challenges in implementing civic engagement initiatives. Analyzing the Role of Citizen Science in Modern Research focuses on analyzing data on current initiatives and best practices in citizen engagement and education programs across various disciplines. Highlighting emergent research and application techniques within citizen science initiatives, this publication appeals to academicians, researchers, policy makers, government officials, technology developers, advanced-level students and program developers interested in launching or improving citizen science programs across the globe.
An eminent molecular physicist and path-breaking crystallographer, an eloquent and prescient writer on the social implications of science, an early foe of pseudo-scientific racism and an indefatigable campaigner for peace and civil rights: as a scientist and a Communist intellectual, J.D. Bernal was caught up in many of the dramas of the twentieth century. As Eric Hobsbawm describes here, Bernal played a major role in the dynamic 'red science' movement of the 1930s, whose ideas on links between science and society are only now being accorded their full significance. Bernal's The Social Function of Science remains a classic analysis of the way in which wider social relations may determine the boundaries of both scientific understanding and practice. Impressed by Bernal's relentless questioning of received ideas, Mountbatten recruited him to the brilliant scientific team of his 'Department of Wild Talents' during World War Two, to help in planning the Normandy landings. After the war, Bernal strove to combine running the Department of Physics at Birkbeck College, London, with travelling and campaigning through six continents against the nuclear threat of the Cold War. In a field notorious for its mysoginism, Bernal's laboratories at Birkbeck were a haven for many of the leading women scientists of the day, among them Rosalind Franklin and the Nobel Laureate Dorothy Crowfoot Hodgkin. And, as James Watson has acknowledged, Bernal's X-ray photographs of molecular structures formed a vital piece of evidence on the path leading to the discovery of DNA. In this wide-ranging collection of essays, different facets of Bernal's life and work are recounted and assessed by Eric Hobsbawm, Hilary and Steven Rose, Ivor Montagu, Ritchie Calder, Francis Aprahamian, Brenda Swann, Roy Johnston, Chris Freeman and Peter Mason
The role of science in policymaking has gained unprecedented stature in the United States, raising questions about the place of science and scientific expertise in the democratic process. Some scientists have been given considerable epistemic authority in shaping policy on issues of great moral and cultural significance, and the politicizing of these issues has become highly contentious. Since World War II, most philosophers of science have purported the concept that science should be "value-free." In Science, Policy and the Value-Free Ideal, Heather E. Douglas argues that such an ideal is neither adequate nor desirable for science. She contends that the moral responsibilities of scientists require the consideration of values even at the heart of science. She lobbies for a new ideal in which values serve an essential function throughout scientific inquiry, but where the role values play is constrained at key points, thus protecting the integrity and objectivity of science. In this vein, Douglas outlines a system for the application of values to guide scientists through points of uncertainty fraught with moral valence.Following a philosophical analysis of the historical background of science advising and the value-free ideal, Douglas defines how values should-and should not-function in science. She discusses the distinctive direct and indirect roles for values in reasoning, and outlines seven senses of objectivity, showing how each can be employed to determine the reliability of scientific claims. Douglas then uses these philosophical insights to clarify the distinction between junk science and sound science to be used in policymaking. In conclusion, she calls for greater openness on the values utilized in policymaking, and more public participation in the policymaking process, by suggesting various models for effective use of both the public and experts in key risk assessments.
Social functions and functional explanations play a prominent role not only in our everyday reasoning but also in classical as well as contemporary social theory and empirical social research. This volume explores metaphysical, normative, and methodological perspectives on social functions and functional explanations in the social sciences. It aims to push the philosophical debate on social functions forward along new investigative lines by including up-to-date discussions of the metaphysics of social functions, questions concerning the nature of functional explanations within the social domain, and various applications of functionalist theorising. As such, this is one of the first collections to exclusively address a variety of philosophical questions concerning the nature and relevance of social functions.
Notes on contributors Acknowledgements 1. The Idiom of Co-production Sheila Jasanoff 2. Ordering Knowledge, Ordering Society Sheila Jasanoff 3. Climate Science and the Making of a Global Political Order Clark A. Miller 4. Co-producing CITES and the African Elephant Charis Thompson 5. Knowledge and Political Order in the European Environment Agency Claire Waterton and Brian Wynne 6. Plants, Power and Development: Founding the Imperial Department of Agriculture for the West Indies, 1880-1914 William K. Storey 7. Mapping Systems and Moral Order: Constituting property in genome laboratories Stephen Hilgartner 8. Patients and Scientists in French Muscular Dystrophy Research Vololona Rabeharisoa and Michel Callon 9. Circumscribing Expertise: Membership categories in courtroom testimony Michael Lynch 10. The Science of Merit and the Merit of Science: Mental order and social order in early twentieth-century France and America John Carson 11. Mysteries of State, Mysteries of Nature: Authority, knowledge and expertise in the seventeenth century Peter Dear 12. Reconstructing Sociotechnical Order: Vannevar Bush and US science policy Michael Aaron Dennis 13. Science and the Political Imagination in Contemporary Democracies Yaron Ezrah 14. Afterword Sheila Jasanoff References Index
This book is designed to introduce doctoral and graduate students to the process of conducting scientific research in the social sciences, business, education, public health, and related disciplines. It is a one-stop, comprehensive, and compact source for foundational concepts in behavioral research, and can serve as a stand-alone text or as a supplement to research readings in any doctoral seminar or research methods class. This book is currently used as a research text at universities on six continents and will shortly be available in nine different languages.
Religious and secular communities ritualize some books in one, two, or three dimensions. They ritualize the dimension of semantic interpretation through teaching, preaching, and scholarly commentary. This dimension receives almost all the attention of academic scholars. Communities also ritualize a text's expressive dimension through public reading, recitation, and song, and also by reproducing its contents in art, theatre and film. This dimension is receiving increasing scholarly attention, especially in religious studies and anthropology. A third textual dimension, the iconic dimension, gets ritualized by manipulating the physical text, decorating it, and displaying it. This dimension has received almost no academic attention, yet features prominently in the most common news stories about books, whether about e-books, academic libraries, rare manuscript discoveries, or scripture desecrations. By calling attention to the iconic dimension of books, James Watts argues that we can better understand how physical books mediate social value and power within and between religious communities, nations, academic disciplines, and societies both ancient and modern.How and Why Books Matter will appeal to a wide range of readers interested in books, reading, literacy, scriptures, e-books, publishing, and the future of the book. It also addresses scholarship in religion, cultural studies, literacy studies, biblical studies, book history, anthropology, literary studies, and intellectual history.
This open access book discusses how the involvement of citizens into scientific endeavors is expected to contribute to solve the big challenges of our time, such as climate change and the loss of biodiversity, growing inequalities within and between societies, and the sustainability turn. The field of citizen science has been growing in recent decades. Many different stakeholders from scientists to citizens and from policy makers to environmental organisations have been involved in its practice. In addition, many scientists also study citizen science as a research approach and as a way for science and society to interact and collaborate. This book provides a representation of the practices as well as scientific and societal outcomes in different disciplines. It reflects the contribution of citizen science to societal development, education, or innovation and provides and overview of the field of actors as well as on tools and guidelines. It serves as an introduction for anyone who wants to get involved in and learn more about the science of citizen science.