Without assuming any scientific background, Bucchi provides clear summaries of all the major theoretical positions within the sociology of science, using many fascinating examples to illustrate them.
Many of the revolutionary effects of science and technology are obvious enough. Bertrand Russell saw in the 1950s that there are also many negative aspects of scientific innovation. Insightful and controversial in equal measure, Russell argues that science offers the world greater well-being than it has ever known, on the condition that prosperity is dispersed; power is diffused by means of a single, world government; birth rates do not become too high; and war is abolished. Russell acknowledges that is a tall order, but remains essentially optimistic. He imagines mankind in a 'race between human skill as to means and human folly as to ends', but believes human society will ultimately choose the path of reason. This Routledge Classics edition includes a new Preface by Tim Sluckin.
Invaluable guidance on how scientists can communicate the societal benefits of their work to the public and funding agencies. This will help scientists submit proposals to the US National Science Foundation and other funding agencies with a 'Broader Impacts' section, as well as helping to develop successful wider outreach activities.
In its concern with science as an essentially human enterprise, Science, Faith and Society makes an original and challenging contribution to the philosophy of science. On its appearance in 1946 the book quickly became the focus of controversy. Polanyi aims to show that science must be understood as a community of inquirers held together by a common faith; science, he argues, is not the use of "scientific method" but rather consists in a discipline imposed by scientists on themselves in the interests of discovering an objective, impersonal truth. That such truth exists and can be found is part of the scientists' faith. Polanyi maintains that both authoritarianism and scepticism, attacking this faith, are attacking science itself.
From weaker to stronger rhetoric : literature - Laboratories - From weak points to strongholds : machines - Insiders out - From short to longer networks : tribunals of reason - Centres of calculation.
Written for the undergraduate, majors and non-majors alike taking a foundational course in science, Science & Society: Thought and Education for the 21st Century helps students become better consumers of science by showing them how to think like a scientist. Scientific principles are infused with case studies, stories, paradoxes, poetry, medical dilemmas, and misconceptions, all through a lens of skepticism. Throughout the book, provocative science examples are provided that guide students to consider facts more critically. The author exposes readers to research methods, science philosophy, critical thinking strategies, mathematics, and history, and urges them to question data and think scientifically. End-of-chapter questions link to interesting content stimulates debate and discussion in the classroom and this engaging, interdisciplinary approach to learning science leads student to real truths behind many natural phenomena. -End-of-chapter review questions creatively stimulate discussion and span all levels of Bloom's taxonomy. -The text makes science accessible to a broad range of readers and covers all of the key areas needed for a full understanding of science. -Questions stimulate debate and discussion and cover science philosophy, history, mathematics, education, research methods, and critical thinking strategies. -Provides models of reasoning and guidelines and practice activities for thinking critically. -Presents major themes common to all scientific disciplines in a clear and readable manner for undergraduates
The latest advances and discoveries in science have made, and continue to make, a huge impact on our lives. This book is a history of the social impact of science and technology from the beginnings of civilization up to the present. The book explains how the key inventions: agriculture, writing and printing with movable type, initiated an explosive growth of knowledge and human power over the environment. It also shows how the Industrial Revolution changed the relationship between humans and nature, and initiated a massive use of fossil fuels. Problems related to nuclear power, nuclear weapons, genetic engineering, information technology, exhaustion of non-renewable resources, use of fossil fuels and climate change are examined in the later chapters of the book. Finally, the need for ethical maturity to match our scientific progress is discussed.
A History of Science in Society is a concise overview that introduces complex ideas in a non-technical fashion. Andrew Ede and Lesley B. Cormack trace the history of science through its continually changing place in society and explore the link between the pursuit of knowledge and the desire to make that knowledge useful. In this edition, the authors examine the robust intellectual exchange between East and West and provide new discussions of two women in science: Maria Merian and Maria Winkelmann. A chapter on the relationship between science and war has been added as well as a section on climate change. The further readings section has been updated to reflect recent contributions to the field. Other new features include timelines at the end of each chapter, 70 upgraded illustrations, and new maps of Renaissance Europe, Captain James Cook's voyages, the 2nd voyage of the Beagle, and the main war front during World War I.
"In this concices and luminous book ... [Russell] examines the changes in modern life brought about by science. he suggests that its work in transforming society is only just beginning"--from inside upper cover.
In this successor to his pioneering Science, Truth, and Democracy, the author revisits the topic explored in his previous work—namely, the challenges of integrating science, the most successful knowledge-generating system of all time, with the problems of democracy. But in this new work, the author goes far beyond that earlier book in studying places at which the practice of science fails to answer social needs. He considers a variety of examples of pressing concern, ranging from climate change to religiously inspired constraints on biomedical research to the neglect of diseases that kill millions of children annually, analyzing the sources of trouble. He shows the fallacies of thinking that democracy always requires public debate of issues most people cannot comprehend, and argues that properly constituted expertise is essential to genuine democracy. No previous book has treated the place of science in democratic society so comprehensively and systematically, with attention to different aspects of science and to pressing problems of our times.