Assisted reproductive technology (ART) makes babies and parents at once. Drawing on science and technology studies, feminist theory, and historical and ethnographic analyses of ART clinics, Charis Thompson explores the intertwining of biological reproduction with the personal, political, and technological meanings of reproduction.
What if modern society put a priority on the material security of its citizens and the ecological integrity of its resource base? What if it took ecological constraint as a given, not a hindrance but a source of long-term economic security? How would it organize itself, structure its industry, shape its consumption?
Pedagogy and the Practice of Science provides the first sustained examination of how scientists' and engineers' training shapes their research and careers. The wide-ranging essays move pedagogy to the center of science studies, asking where questions of scientists' training should fit into our studies of the history, sociology, and anthropology of science. Chapter authors examine the deep interrelations among training, learning, and research and consider how the form of scientific training affects the content of science.
The integration of scientific knowledge and military power began long before the Manhattan Project. In the third century BC, Archimedes was renowned for his research in mechanics and mathematics as well as for his design and coordination of defensive siegecraft for Syracuse during the Second Punic War.
Is DNA technology the ultimate diviner of guilt or the ultimate threat to civil liberties? Over the past decade, DNA has been used to exonerate hundreds and to convict thousands. Its expanded use over the coming decade promises to recalibrate significantly the balance between collective security and individual freedom. For example, it is possible that law enforcement DNA databases will expand to include millions of individuals not convicted of any crime.
When aerospace engineers, laid off from the space program, feel lucky to find employment as manual laborers; when physics Ph.D.s, ready and willing to teach, find themselves at the end of waiting lists hundreds of names long for positions at little-known colleges and even high schools—then clearly the problem of making proper use of those with advanced education, and of giving them proper scope, is already at a critical point.
Solar Resources takes stock of the resource - sunlight - on which any plan for solar heat conversion technologies must be based. It describes the evolution of theoretical models, algorithms, and equipment for measuring, analyzing, and predicting the quantity and composition of solar radiation, and it reviews and directs readers to insolation databases and other references that have been compiled since 1975.
In this book Carver Mead offers a radically new approach to the standard problems of electromagnetic theory. Motivated by the belief that the goal of scientific research should be the simplification and unification of knowledge, he describes a new way of doing electrodynamics—collective electrodynamics—that does not rely on Maxwell's equations, but rather uses the quantum nature of matter as its sole basis. Collective electrodynamics is a way of looking at how electrons interact, based on experiments that tell us about the electrons directly.
This history of computing focuses not on chronology (what came first and who deserves credit for it) but on the actual architectures of the first machines that made electronic computing a practical reality. The book covers computers built in the United States, Germany, England, and Japan. It makes clear that similar concepts were often pursued simultaneously and that the early researchers explored many architectures beyond the von Neumann architecture that eventually became canonical. The contributors include not only historians but also engineers and computer pioneers.
Nature has secrets, and it is the desire to uncover them that motivates the scientific quest. But what makes these "secrets" secret? Is it that they are beyond human ken? that they concern divine matters? And if they are accessible to human seeking, why do they seem so carefully hidden? Such questions are at the heart of Peter Pesic's enlightening effort to uncover the meaning of modern science.
