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Thomas Kuhn (1922-96) transformed the philosophy of science. His seminal 1962 work "The Structure of Scientific Revolutions" introduced the term 'paradigm shift' into the vernacular and remains a fundamental text in the study of the history and philosophy of science. This introduction to Kuhn's ideas covers the breadth of his philosophical work, situating "The Structure of Scientific Revolutions" within Kuhn's wider thought and drawing attention to the development of his ideas over time. Kuhn's work is assessed within the context of other philosophies of science notably logical empiricism and recent developments in naturalized epistemology. The author argues that Kuhn's thinking betrays a residual commitment to many theses characteristic of the empiricists he set out to challenge. Kuhn's influence on the history and philosophy of science is assessed and where the field may be heading in the wake of Kuhn's ideas is explored.
"One might wonder if there is anything new to say about Thomas Kuhn and his views on science. Scholarship on Kuhn, though, has changed dramatically in the last 20 years. This is so for a number reasons"--
Kuhn's Structure of Scientific Revolutions (1962) has been enduringly influential in philosophy of science, challenging many common presuppositions about the nature of science and the growth of scientific knowledge. However, philosophers have misunderstood Kuhn's view, treating him as a relativist or social constructionist. In this book, Brad Wray argues that Kuhn provides a useful framework for developing an epistemology of science that takes account of the constructive role that social factors play in scientific inquiry. He examines the core concepts of Structure and explains the main characteristics of both Kuhn's evolutionary epistemology and his social epistemology, relating Structure to Kuhn's developed view presented in his later writings. The discussion includes analyses of the Copernican revolution in astronomy and the plate tectonics revolution in geology. The book will be useful for scholars working in science studies, sociologists and historians of science as well as philosophers of science.
The influence of Thomas Kuhn (1922 -1996) on the history and philosophy of science has been truly enormous. In 1962, Kuhn's famous work, The Structure of Scientific Revolutions, helped to inaugurate a revolution - the historiographic revolution - in the latter half of the twentieth century, providing a new understanding of science in which 'paradigm shifts' (scientific revolutions) are punctuated with periods of stasis (normal science). Kuhn's revolution not only had a huge impact on the history and philosophy of science but on other disciplines as well, including sociology, education, economics, theology, and even science policy. James A. Marcum's book focuses on the following questions: Wh...
Divided into three parts, this work is a record of the direction Kuhn was taking during the last two decades of his life. It consists of essays in which he refines the basic concepts set forth in "Structure"--Paradigm shifts, incommensurability, and the nature of scientific progress.
"A masterly assessment of the way the idea of quanta of radiation became part of 20th-century physics. . . . The book not only deals with a topic of importance and interest to all scientists, but is also a polished literary work, described (accurately) by one of its original reviewers as a scientific detective story."—John Gribbin, New Scientist "Every scientist should have this book."—Paul Davies, New Scientist
Thomas S. Kuhn's 'The Structure of Scientific Revolutions' was a watershed event when it was published in 1962, upending the previous understanding of science as a slow, logical accumulation of facts and introducing, with the concept of the 'paradigm shift,' social and psychological considerations into the heart of the scientific process. The essays in this book exhume important historical context for Kuhn's work, critically analyzing its foundations in twentieth-century science, politics and Kuhn's own intellectual biography.
An account of the Copernican Revolution, focusing on the significance of the plurality of the revolution which encompassed not only mathematical astronomy, but also conceptual changes in cosmology, physics, philosophy, and religion.