The Structure of Scientific Revolutions
Thomas S. Kuhn's classic book is now available with a new index.
"A landmark in intellectual history which has attracted attention far beyond its own immediate field. . . . It is written with a combination of depth and clarity that make it an almost unbroken series of aphorisms. . . . Kuhn does not permit truth to be a criterion of scientific theories, he would presumably not claim his own theory to be true. But if causing a revolution is the hallmark of a superior paradigm, [this book] has been a resounding success". --Nicholas Wade, "Science"
"Perhaps the best explanation of [the] process of discovery". --William Erwin Thompson, "New York Times Book Review"
"Occasionally there emerges a book which has an influence far beyond its originally intended audience. . . . Thomas Kuhn's "The Structure of Scientific Revolutions" . . . has clearly emerged as just such a work". --Ron Johnston, "Times Higher Education Supplement"
"Among the most influential academic books in this century". -- "Choice"
--One of "The Hundred Most Influential Books Since the Second World War", "Times Literary Supplement"
Thomas S. Kuhn was the Laurence Rockefeller Professor Emeritus of linguistics and philosophy at the Massachusetts Institute of Technology. His books include "The Essential Tension; Black-Body Theory and the Quantum Discontinuity, 1894-1912; " and "The Copernican Revolution".
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As a practicing scientist and someone who has always been interested in history and the development of scientific ideas "The Structure of Scientific Revolutions" has for long time been the book that loomed large on my intellectual horizon. Thomas Khun's book has for a long time had a reputation as the definitive and seminal work on understanding how new scientific ideas come about and how and why they gain support. Part of my reluctance to start reading this book stemmed from my belief that it would be an overly philosophical work, with a lot of opaque technical jargon, and with very little relevance to actual scientific practice. However, to my great surprise and delight, nothing could be farther from the truth. This book is written in a very matter-of-fact style, and it is easy to understand what Khun is getting at. His own background in science and history of science probably made him very sensitive to the working and thinking of practicing scientists.
The insights that Khun has arrived at are still relevant almost half a century after this book has been published. The idea of "paradigm shifts" has even entered the mainstream consciousness, to the point that it can be caricatured in various cartoons and silly t-shirts. However, after reading this book it is not quite clear to me whether Khun wanted this to be a description of the way that science works, or more of a normative prescription for how to arrive at truly fundamental changes in some scientific discipline. This is particularly relevant for disciplines or directions of research that seem to have gotten stuck in some dead end, as has been the case with particle physics for several decades.
Whether you are a practicing scientist, someone interested in science, or someone who would like to know more about how scientific breakthroughs happen you'll greatly benefit from reading this book. You may not agree with Khun's every conclusion, but the longevity of the ideas presented here makes them relevant for every serious discussion about scientific endeavor.
Simply put, if you wish to enter into the academic discourse of history and science, you must read this book first.