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Guide lists reference books in physical, applied, and natural sciences and technology for readers from elementary school age to young adults. Includes prices, where reviewed, annotations, and subject terms.
Science, medicine, and technology have become increasingly important to the average individual in modern society. The importance of these three fields is in many ways one of the defining characteristics of modernity. Understanding their history is essential for educated individuals. Science, medicine, and technology are not static endeavors but processes, bodies of knowledge, tools, and techniques that are constantly growing and changing. The entries in this encyclopedia explore the changing character of science, medicine, and technology in the United States; the key individuals, institutions, and organizations responsible for major developments; and the concepts, practices, and processes underlying these changes. Especially since the early decades of the twentieth century, American science, medicine, and technology have played dominant roles internationally. Entries explore distinctive characteristics of American institutions and culture that help explain this development.At the same time, the encyclopedia situates specific events, theories, practices, and institutions in their proper historical context and explores their impact on American society and culture. Entries are written by the experts in the field. Students not only from the humanities and social sciences but also from the sciences and the medical sciences should be attracted to the broad-ranging and in-depth analysis in the encyclopedia.
From black holes to vacuum cleaners; from forces to faxes... Science and Technology takes a fresh look at energy, astronomy, materials, transport, and information technology. Easily accessible, it looks at the fascinating world of science in the context of everyday life.
The explosion of scientific information is exacerbating the information gap between richer/poorer, educated/less-educated publics. The proliferation of media technology and the popularity of the Internet help some keep up with these developments but also make it more likely others fall further behind. This is taking place in a globalizing economy and society that further complicates the division between information haves and have-nots and compounds the challenge of communicating about emerging science and technology to increasingly diverse audiences. Journalism about science and technology must fill this gap, yet journalists and journalism students themselves struggle to keep abreast of contemporary scientific developments. Scientist - aided by public relations and public information professionals - must get their stories out, not only to other scientists but also to broader public audiences. Funding agencies increasingly expect their grantees to engage in outreach and education, and such activity can be seen as both a survival strategy and an ethical imperative for taxpayer-supported, university-based research. Science communication, often in new forms, must expand to meet all these needs. Providing a comprehensive introduction to students, professionals and scholars in this area is a unique challenge because practitioners in these fields must grasp both the principles of science and the principles of science communication while understanding the social contexts of each. For this reason, science journalism and science communication are often addressed only in advanced undergraduate or graduate specialty courses rather than covered exhaustively in lower-division courses. Even so, those entering the field rarely will have a comprehensive background in both science and communication studies. This circumstance underscores the importance of compiling useful reference materials. The Encyclopedia of Science and Technology Communication presents resources and strategies for science communicators, including theoretical material and background on recent controversies and key institutional actors and sources. Science communicators need to understand more than how to interpret scientific facts and conclusions; they need to understand basic elements of the politics, sociology, and philosophy of science, as well as relevant media and communication theory, principles of risk communication, new trends, and how to evaluate the effectiveness of science communication programmes, to mention just a few of the major challenges. This work will help to develop and enhance such understanding as it addresses these challenges and more. Topics covered include: advocacy, policy, and research organizations environmental and health communication philosophy of science media theory and science communication informal science education science journalism as a profession risk communication theory public understanding of science pseudo-science in the news special problems in reporting science and technology science communication ethics.
A chronological listing of scientific discovery and technological invention.
This lavishly illustrated encyclopedia--which Library Journal praised as "wonderfully illustrated" and "a pleasure to browse"--is now available in a revised edition. Here is a wealth of up-to-date information--more than 6,500 alphabetically arranged entries, each written by an expert in the field, covering virtually every aspect of science and technology, from the structure of atoms to the functioning of the cell. Readers will find brief informative entries covering subject areas such as astronomy, chemistry, biology, botany, engineering, physics, and medicine, to name a few. In addition, dozens of major topics--such as the Solar System or the Human Body--receive expanded, one- or two-page spreads. The volume also offers 700 special-feature boxes that explain key topics, inventions, and processes, ranging from air conditioners to binary stars; a 40-page time-line detailing significant moments in the history of science and technology; plus a ten-page ready reference section. And the entire volume boasts marvelous illustrations--over a thousand color diagrams, tables, and photographs. This up-to-date reference is beautifully designed, highly informative, and easy to use--an ideal reference for high school and college students as well as anyone interested in science.
To most people, technology has been reduced to computers, consumer goods, and military weapons; we speak of "technological progress" in terms of RAM and CD-ROMs and the flatness of our television screens. In Human-Built World, thankfully, Thomas Hughes restores to technology the conceptual richness and depth it deserves by chronicling the ideas about technology expressed by influential Western thinkers who not only understood its multifaceted character but who also explored its creative potential. Hughes draws on an enormous range of literature, art, and architecture to explore what technology has brought to society and culture, and to explain how we might begin to develop an "ecotechnology" that works with, not against, ecological systems. From the "Creator" model of development of the sixteenth century to the "big science" of the 1940s and 1950s to the architecture of Frank Gehry, Hughes nimbly charts the myriad ways that technology has been woven into the social and cultural fabric of different eras and the promises and problems it has offered. Thomas Jefferson, for instance, optimistically hoped that technology could be combined with nature to create an Edenic environment; Lewis Mumford, two centuries later, warned of the increasing mechanization of American life. Such divergent views, Hughes shows, have existed side by side, demonstrating the fundamental idea that "in its variety, technology is full of contradictions, laden with human folly, saved by occasional benign deeds, and rich with unintended consequences." In Human-Built World, he offers the highly engaging history of these contradictions, follies, and consequences, a history that resurrects technology, rightfully, as more than gadgetry; it is in fact no less than an embodiment of human values.
"The impact of technology on society is clear and unmistakeable. The influence of society on technology is more subtle. The 13 essays in this book have been written by a diverse group of scholars united by a common interest in creating a new field - the sociology of technology. They draw on a wide array of case studies - from cooking stoves to missile systems, from 15th-century Portugal to today's Al labs - to outline an original research program based on a synthesis of ideas from the social studies of science and the history of technology. Together they affirm the need for a study of technology that gives equal weight to technical, social, economic, and political questions"--Back cover.
"This set of books represents a detailed compendium of authoritative, research-based entries that define the contemporary state of knowledge on technology"--Provided by publisher.
In 1909 Mohandas Karamchand Gandhi, on his way back to South Africa from London, wrote his now celebrated tract Hind Swaraj, laying out his vision for the future of India and famously rejecting the technological innovations of Western civilization. Despite his protestations, Western technology endured and helped to make India one of the leading economies in our globalized world. Few would question the dominant role that technology plays in modern life, but to fully understand how India first advanced into technological modernity, argues David Arnold, we must consider the technology of the everyday. Everyday Technology is a pioneering account of how small machines and consumer goods that originated in Europe and North America became objects of everyday use in India in the late nineteenth and early twentieth centuries. Rather than investigate “big” technologies such as railways and irrigation projects, Arnold examines the assimilation and appropriation of bicycles, rice mills, sewing machines, and typewriters in India, and follows their impact on the ways in which people worked and traveled, the clothes they wore, and the kind of food they ate. But the effects of these machines were not limited to the daily rituals of Indian society, and Arnold demonstrates how such small-scale technologies became integral to new ways of thinking about class, race, and gender, as well as about the politics of colonial rule and Indian nationhood. Arnold’s fascinating book offers new perspectives on the globalization of modern technologies and shows us that to truly understand what modernity became, we need to look at the everyday experiences of people in all walks of life, taking stock of how they repurposed small technologies to reinvent their world and themselves.