How the NSF became an important yet controversial patron for the social sciences, influencing debates over their scientific status and social relevance. In the early Cold War years, the U.S. government established the National Science Foundation (NSF), a civilian agency that soon became widely known for its dedication to supporting first-rate science. The agency's 1950 enabling legislation made no mention of the social sciences, although it included a vague reference to "other sciences." Nevertheless, as Mark Solovey shows in this book, the NSF also soon became a major--albeit controversial--source of public funding for them.
Landmarks in the History of Science is a concise history of science from a global and macro-historical standpoint. It is an account of grand theoretical revolutions, such as heliocentrism, atomism, and relativity. But, more importantly, it is also a story of the methodological transitions to the experimental, mathematical, constructivist and instrumental practices of science. It begins with Ancient Greek science, as one of the first self-conscious, comprehensive and well-documented scientific endeavors at the global level. The numerous contributions of the Greeks, in philosophy, mathematics, geometry, geography and astronomy, momentous as they were, were fruits of leisure rather than industry. It then examines the history of science in China and China's exchanges with India and Islam. A systematic and collaborative scientific effort is the hallmark of Chinese science. The contributions of the Chinese in medicine, printing, manufacturing and navigation invariably predate and outshine those of western contemporaries. Attention then shifts to the age of oceanic discoveries, which created the inexorable presuppositions for the genesis of global trade and a world system. From the inner organs of the organisms to the outer regions of Earth, Renaissance science was ubiquitous. The importance of inter-cultural scientific syncretism is highlighted, with the Iberian Peninsula as meeting point and crossroad of mutual affection between Arab, Jewish and European culture. Discoveries and inventions in metallurgy, electromagnetism and the science of petroleum set the scientific basis for the industrial revolution. The logic of the industrial revolution dictates developments in information technologies that culminate with the invention of modern computers. A dedicated chapter on the history of modern scientific conceptions of the universe showcases the subtle links in the fabric of seminal ideas in physics and astronomy. The book concludes with some reflections on the relationship between philosophy and the history of science. Following Kuhn and Latour, this discussion centers on the characteristics of continuities, ruptures and paradigmatic transitions in science.
Landmark Essays in Rhetoric of Science: Issues and Methods compiles the essential readings of the vibrant field of rhetoric of science, tracing the growth and core concerns of the field since its development in the 1970s. A companion to Randy Allen Harris’s foundational Landmark Essays in Rhetoric of Science: Case Studies, this volume includes essays by such luminaries as Carolyn R. Miller, Jeanne Fahnestock, and Alan G. Gross, along with an early prophetic article by Charles Sanders Pierce. Harris’s detailed introduction puts the field into its social and intellectual context, and frames the important contributions of each essay, which range from reimagining classical concepts like rhetorical figures and topical invention to Modal Materialism and the Neomodern hybridization of Actor Network Theory with Genre Studies. Race, revolution, and Daoism come up along the way, and the empirical recalcitrance of the moon. This collection serves as a textbook for graduate and advanced undergraduate courses in science studies, and is an invaluable resource for researchers concerned with science not as a special, autonomous, sacrosanct enterprise, but as a set of value-saturated, profoundly influential rhetorical practices.
While social scientists and historians have been exchanging ideas for a long time, they have never developed a proper dialogue about social theory. William H. Sewell Jr. observes that on questions of theory the communication has been mostly one way: from social science to history. Logics of History argues that both history and the social sciences have something crucial to offer each other. While historians do not think of themselves as theorists, they know something social scientists do not: how to think about the temporalities of social life. On the other hand, while social scientists’ treatments of temporality are usually clumsy, their theoretical sophistication and penchant for structural accounts of social life could offer much to historians. Renowned for his work at the crossroads of history, sociology, political science, and anthropology, Sewell argues that only by combining a more sophisticated understanding of historical time with a concern for larger theoretical questions can a satisfying social theory emerge. In Logics of History, he reveals the shape such an engagement could take, some of the topics it could illuminate, and how it might affect both sides of the disciplinary divide.
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.
The forms taken by scientific writing help to determine the very nature of science itself. In this closely reasoned study, Charles Bazerman views the changing forms of scientific writing as solutions to rhetorical problems faced by scientists arguing for their findings. Examining such works as the early Philosophical Transactions and Newton's optical writings as well as Physical Review, Bazerman views the changing forms of scientific writing as solutions to rhetorical problems faced by scientists. The rhetoric of science is, Bazerman demonstrates, an embedded part of scientific activity that interacts with other parts of scientific activity, including social structure and empirical experience. This book presents a comprehensive historical account of the rise and development of the genre, and views these forms in relation to empirical experience.
