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The highly acclaimed first edition of this major work convincingly established Gerald Holton’s analysis of the ways scientific ideas evolve. His concept of “themata,” induced from case studies with special attention to the work of Einstein, has become one of the chief tools for understanding scientific progress. It is now one of the main approaches in the study of the initiation and acceptance of individual scientific insights. Three principal consequences of this perspective extend beyond the study of the history of science itself. It provides philosophers of science with the kind of raw material on which some of the best work in their field is based. It helps intellectual historians to redefine the place of modern science in contemporary culture by identifying influences on the scientific imagination. And it prompts educators to reexamine the conventional concepts of education in science. In this new edition, Holton has masterfully reshaped the contents and widened the coverage. Significant new material has been added, including a penetrating account of the advent of quantum physics in the United States, and a broad consideration of the integrity of science, as exemplified in the work of Niels Bohr. In addition, a revised introduction and a new postscript provide an updated perspective on the role of themata. The result of this thoroughgoing revision is an indispensable volume for scholars and students of scientific thought and intellectual history.
By means of case studies of the growth of ideas of Kepler, Newton, Einstein, Bohr, and others, Gerald Holton shows that our traditional view of how the scientific mind works must be changed and supplemented. He introduces the new concept of the thematic content of science, a dimension that can be conceived as independent of the empirical and analytical content, and demonstrates that themata play a crucial role in the initiation and acceptance of individual scientific insights. Drawing on his work in the unpublished documents in the extensive Nachlass of Einstein, he examines the origins of relativity theory in depth. Mr. Holton identifies three respects in which Thematic Origins of Scientific Thought may have consequences beyond the study of the history of science itself: It should provide the philosopher of science with the kind of raw material on which some of the best work in that field is based. It should help the intellectual historian to redefine the place of modern science in contemporary culture by identifying the contributions to the scientific imagination owing to influences ranging from the general literary and epistemological currents to the social ecology governing group work in the laboratory. And it may prompt the educator to re-examine conventional concepts of education in science. -- from dust jacket.
What is good science? What goal--if any--is the proper end of scientific activity? Is there a legitimating authority that scientists mayclaim? Howserious athreat are the anti-science movements? These questions have long been debated but, as Gerald Holton points out, every era must offer its own responses. This book examines these questions not in the abstract but shows their historic roots and the answers emerging from the scientific and political controversies of this century. Employing the case-study method and the concept of scientific thematathat he has pioneered, Holton displays the broad scope of his insight into the workings of science: from the influence of Ernst Mach on twentiethcentury physicists, biologists, psychologists, and other thinkers to the rhetorical strategies used in the work of Albert Einstein, Niels Bohr, and others; from the bickering between Thomas Jefferson and the U.S. Congress over the proper form of federal sponsorship of scientific research to philosophical debates since Oswald Spengier over whether our scientific knowledge will ever be "complete." In a masterful final chapter, Holton scrutinizes the "anti-science phenomenon," the increasingly common opposition to science as practiced today. He approaches this contentious issue by examining the world views and political ambitions of the proponents of science as well as those of its opponents-the critics of "establishment science" (including even those who fear that science threatens to overwhelm the individual in the postmodern world) and the adherents of "alternative science" (Creationists, New Age "healers," astrologers). Through it all runs the thread of the author's deep historical knowledge and his humanistic understanding of science in modern culture. Science and Anti-Science will be of great interest not only to scientists and scholars in the field of science studies but also to educators, policymalcers, and all those who wish to gain a fuller understanding of challenges to and doubts about the role of science in our lives today.
"[The] book makes a wonderfully cohesive whole. It is rich in ideas, elegantly expressed. I highly recommend it to any serious student of science and culture."--Lucy Horwitz, Boston Book Review "An important and lasting contribution to a more profound understanding of the place of science in our culture."--Hans C. von Baeyer, Boston Sunday Globe "[Holton's] themes are central to an understanding of the nature of science, and Holton does an excellent job of identifying and explaining key features of the scientific enterprise, both in the historical sense and in modern science...I know of no better informed scientist who has studied the nature of science for half a century."--Ron Good, Science and Education Through his rich exploration of Einstein's thought, Gerald Holton shows how the best science depends on great intuitive leaps of imagination, and how science is indeed the creative expression of the traditions of Western civilization.
In questioning the scientific enterprise and its effect on the society around it, this analysis of modern science has a particular emphasis on the role of thematic elements - often unconscious presuppositions that guide scientific work.
This book shows why at any given time there exists no single scientific “paradigm,“ but rather a spectrum of competing perspectives. Considering conflicts between Heisenberg and Einstein, Bohr and Einstein, and P. W. Bridgman and B. F. Skinner, Holton demonstrates a masterly understanding of modern science and how it influences our world.
Twenty-five years ago, Gerald Holton's Thematic Origins of Scientific Thought introduced a wide audience to his ideas. Holton argued that from ancient times to the modern period, an astonishing feature of innovative scientific work was its ability to hold, simultaneously, deep and opposite commitments of the most fundamental sort. Over the course of Holton's career, he embraced both the humanities and the sciences. Given this background, it is fitting that the explorations assembled in this volume reflect both individually and collectively Holton's dual roots. In the opening essay, Holton sums up his long engagement with Einstein and his thematic commitment to unity. The next two essays address this concern. In historicized form, Lorraine Daston returns the question of the scientific imagination to the Enlightenment period when both sciences and art feared imagination. Daston argues that the split whereby imagination was valued in the arts and loathed in the sciences is a nineteenth-century divide. James Ackerman on Leonardo da Vinci meshes perfectly with Daston's account, showing a form of imaginative intervention where it is irrelevant to draw analogies between art and science. Historians of religion Wendy Doniger and Gregory Spinner pursue the imagination into the bedroom with literary-theological representations. Science, culture, and the imagination also intersect with biologist Edward Wilson and physicist Steven Weinberg. Both tackle the big question of the unity of knowledge and worldviews from a scientific perspective while art historian Ernst Gombrich does the same from the perspective of art history. To emphasize the nitty-gritty of scientific practice, chemists Bretislav Fredrich and Dudley Herschback provide a remarkable historical tour at the boundary of chemistry and physics. In the concluding essay, historian of education Patricia Albjerg Graham addresses pedagogy head-on. In these various reflections on science, art, literature, philosophy, and education, this volume gives us a view in common: a deep and abiding respect for Gerald Holton's contribution to our understanding of science in culture. Peter Galison is Mallinckrodt Professor of History of Science and of physics at Harvard University. Stephen R. Graubard is editor of the American Academy of Arts and Sciences and its journal, Daedalus, and professor of history emeritus at Brown University. Everett Mendelsohn is director of the History of Science Program at Harvard University.
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