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Historically, the scientific method has been said to require proposing a theory, making a prediction of something not already known, testing the prediction, and giving up the theory (or substantially changing it) if it fails the test. A theory that leads to several successful predictions is more likely to be accepted than one that only explains what is already known but not understood. This process is widely treated as the conventional method of achieving scientific progress, and was used throughout the twentieth century as the standard route to discovery and experimentation. But does science really work this way? In Making 20th Century Science, Stephen G. Brush discusses this question, as it relates to the development of science throughout the last century. Answering this question requires both a philosophically and historically scientific approach, and Brush blends the two in order to take a close look at how scientific methodology has developed. Several cases from the history of modern physical and biological science are examined, including Mendeleev's Periodic Law, Kekule's structure for benzene, the light-quantum hypothesis, quantum mechanics, chromosome theory, and natural selection. In general it is found that theories are accepted for a combination of successful predictions and better explanations of old facts. Making 20th Century Science is a large-scale historical look at the implementation of the scientific method, and how scientific theories come to be accepted.
Historically, the scientific method has been said to require proposing a theory, making a prediction of something not already known, testing the prediction, and giving up the theory (or substantially changing it) if it fails the test. A theory that leads to several successful predictions is more likely to be accepted than one that only explains what is already known but not understood. This process is widely treated as the conventional method of achieving scientific progress, and was used throughout the twentieth century as the standard route to discovery and experimentation. But does science really work this way? In Making 20th Century Science, Stephen G. Brush discusses this question, as it relates to the development of science throughout the last century. Answering this question requires both a philosophically and historically scientific approach, and Brush blends the two in order to take a close look at how scientific methodology has developed. Several cases from the history of modern physical and biological science are examined, including Mendeleev's Periodic Law, Kekule's structure for benzene, the light-quantum hypothesis, quantum mechanics, chromosome theory, and natural selection. In general it is found that theories are accepted for a combination of successful predictions and better explanations of old facts. Making 20th Century Science is a large-scale historical look at the implementation of the scientific method, and how scientific theories come to be accepted.
Many of the scientific breakthroughs of the twentieth century were first reported in the journal Nature. A Century of Nature brings together in one volume Nature's greatest hits—reproductions of seminal contributions that changed science and the world, accompanied by essays written by leading scientists (including four Nobel laureates) that provide historical context for each article, explain its insights in graceful, accessible prose, and celebrate the serendipity of discovery and the rewards of searching for needles in haystacks.
"This encyclopedia covers a period of enormous scientific discovery. Scientists developed previously unimagined theories, disciplines, and applications: relativity and quantum physics; cultural anthropology; psychoanalysis and behavioral theory; and insulin and antibiotics. Science became the moving force in the world, with effects on all aspects of life and thought. Although most encyclopedias about science treat it in isolation, Science in the Early Twentieth Century details the great scientific advances of this key period and places them firmly within their social context."--BOOK JACKET.
When historians of the future come to examine western civilization in the twentieth century, one area of intellectual accomplishment will stand out above all others; more than any other era before it, the twentieth century was an age of science. Not only were the practical details of daily life radically transformed by the application of scientific discoveries, but our very sense of who we are, how our minds work, how our world came to be, how it works and our proper role in it, our ultimate origins, and our ultimate fate were all influenced by scientific thinking as never before in human history. In the Age of Science, the former editor and publisher of Scientific American gives us a sweeping overview of the scientific achievements of the twentieth century, with chaers on the fundamental forces of nature, the subatomic world, cosmology, the cell and molecular biology, earth history and the evolution of life, and human evolution. Beautifully written and illustrated, this is a book for the connoisseur; an elegant, informative, magisterial summation of one of the twentieth century's greatest cultural achievements.
Recent scholarship has revealed that pioneering Victorian scientists endeavored through voluminous writing to raise public interest in science and its implications. But it has generally been assumed that once science became a profession around the turn of the century, this new generation of scientists turned its collective back on public outreach. Science for All debunks this apocryphal notion. Peter J. Bowler surveys the books, serial works, magazines, and newspapers published between 1900 and the outbreak of World War II to show that practicing scientists were very active in writing about their work for a general readership. Science for All argues that the social environment of early twentieth-century Britain created a substantial market for science books and magazines aimed at those who had benefited from better secondary education but could not access higher learning. Scientists found it easy and profitable to write for this audience, Bowler reveals, and because their work was seen as educational, they faced no hostility from their peers. But when admission to colleges and universities became more accessible in the 1960s, this market diminished and professional scientists began to lose interest in writing at the nonspecialist level. Eagerly anticipated by scholars of scientific engagement throughout the ages, Science for All sheds light on our own era and the continuing tension between science and public understanding.
The early twentieth century's futuristic utopian plans for your home and lifestyle--in vivid color and detail!
What useful changes has feminism brought to science? Feminists have enjoyed success in their efforts to open many fields to women as participants. But the effects of feminism have not been restricted to altering employment and professional opportunities for women. The essays in this volume explore how feminist theory has had a direct impact on research in the biological and social sciences, in medicine, and in technology, often providing the impetus for fundamentally changing the theoretical underpinnings and practices of such research. In archaeology, evidence of women's hunting activities suggested by spears found in women's graves is no longer dismissed; computer scientists have used feminist epistemologies for rethinking the human-interface problems of our growing reliance on computers. Attention to women's movements often tends to reinforce a presumption that feminism changes institutions through critique-from-without. This volume reveals the potent but not always visible transformations feminism has brought to science, technology, and medicine from within. Contributors: Ruth Schwartz Cowan Linda Marie Fedigan Scott Gilbert Evelynn M. Hammonds Evelyn Fox Keller Pamela E. Mack Michael S. Mahoney Emily Martin Ruth Oldenziel Nelly Oudshoorn Carroll Pursell Karen Rader Alison Wylie
This book traces the development during the 20th century of four central themes in the philosophy of science. The themes, chosen for their importance are expounded in a way which does not presuppose any previous knowledge of philosophy or science. The book thus constitutes an excellent introduction to the philosophy of science.