What Was Revolutionary About The Scientific Revolution
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Cohen's exploration seeks to uncover nothing less than the nature of all scientific revolutions, the stages by which they occur, their time scale, specific criteria for determining whether or not there has been a revolution, and the creative factors in producing a revolutionary new idea.
Controversies Within the Scientific Revolution by Marcelo Dascal,Victor D. Boantza Pdf
From the beginning of the Scientific Revolution around the late sixteenth century to its final crystallization in the early eighteenth century, hardly an observational result, an experimental technique, a theory, a mathematical proof, a methodological principle, or the award of recognition and reputation remained unquestioned for long. The essays collected in this book examine the rich texture of debates that comprised the Scientific Revolution from which the modern conception of science emerged. Were controversies marginal episodes, restricted to certain fields, or were they the rule in the majority of scientific domains? To what extent did scientific controversies share a typical pattern, which distinguished them from debates in other fields? Answers to these historical and philosophical questions are sought through a close attention to specific controversies within and across the changing scientific disciplines as well as across the borders of the natural and the human sciences, philosophy, theology, and technology.
This scholarly and accessible study presents “a provocative new reading” of the late sixteenth- and seventeenth-century advances in scientific inquiry (Kirkus Reviews). In The Scientific Revolution, historian Steven Shapin challenges the very idea that any such a “revolution” ever took place. Rejecting the narrative that a new and unifying paradigm suddenly took hold, he demonstrates how the conduct of science emerged from a wide array of early modern philosophical agendas, political commitments, and religious beliefs. In this analysis, early modern science is shown not as a set of disembodied ideas, but as historically situated ways of knowing and doing. Shapin shows that every principle identified as the modernizing essence of science—whether it’s experimentalism, mathematical methodology, or a mechanical conception of nature—was in fact contested by sixteenth- and seventeenth-century practitioners with equal claims to modernity. Shapin argues that this contested legacy is nevertheless rightly understood as the origin of modern science, its problems as well as its acknowledged achievements. This updated edition includes a new bibliographic essay featuring the latest scholarship. “An excellent book.” —Anthony Gottlieb, New York Times Book Review
Paris at the time of the French Revolution was the world capital of science. The city was saturated in scientists; many had an astonishing breadth of talents. Paris in the century around 1789 saw the first lightning conductor, the first flight, the first estimate of the speed of light and the invention of the tin can and the stethoscope. The theory of evolution came into being. Perhaps the greatest Revolutionary scientist of all, Antoine Lavoisier, founded modern chemistry and physiology, transformed French farming, and much improved gunpowder manufacture. His political activities brought him a fortune, but in the end led to his execution. The judge who sentenced him to death claimed that "the Revolution has no need for geniuses."In this enthralling and dazzling book, acclaimed science writer Steve Jones shows how wrong this was and takes a new look at Paris, its history, and its science, to give the reader dazzling new insight into the City of Light.
How Modern Science Came Into the World by H. F. Cohen Pdf
Once upon a time 'The Scientific Revolution of the 17th century' was an innovative concept that inspired a stimulating narrative of how modern science came into the world. Half a century later, what we now know as 'the master narrative' serves rather as a strait-jacket - so often events and contexts just fail to fit in. No attempt has been made so far to replace the master narrative. H. Floris Cohen now comes up with precisely such a replacement. Key to his path-breaking analysis-cum-narrative is a vision of the Scientific Revolution as made up of six distinct yet narrowly interconnected, revolutionary transformations, each of some twenty-five to thirty years' duration. This vision enables him to explain how modern science could come about in Europe rather than in Greece, China, or the Islamic world. It also enables him to explain how half-way into the 17th century a vast crisis of legitimacy could arise and, in the end, be overcome.
The Revolution in Science 1500 - 1750 by A.Rupert Hall Pdf
The ‘revolution in science’ of this book concerns the natural sciences, that is, knowledge of the external world which we now presume to exist independently of man.
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: What exactly was Kuhn's historiographic revolution? How did it come about? Why did it have the impact it did? What, if any, will its future impact be for both academia and society? At the heart of the answers to these questions is the person of Kuhn himself, i.e., his personality, his pedagogical style, his institutional and social commitments, and the intellectual and social context in which he practiced his trade. Drawing on the rich archival sources at MIT, and engaging fully with current scholarship on Kuhn, Marcum's is the first book to show in detail how Kuhn's influence transcended the boundaries of the history and philosophy of science community to reach many others - sociologists, economists, theologians, political scientists, educators, and even policy makers and politicians.
This volume presents Professor Cohen's original interpretation of the revolution that marked the beginnings of modern science and set Newtonian science as the model for the highest level of achievement in other branches of science. It shows that Newton developed a special kind of relation between abstract mathematical constructs and the physical systems that we observe in the world around us by means of experiment and critical observation. The heart of the radical Newtonian style is the construction on the mind of a mathematical system that has some features in common with the physical world; this system was then modified when the deductions and conclusions drawn from it are tested against the physical universe. Using this system Newton was able to make his revolutionary innovations in celestial mechanics and, ultimately, create a new physics of central forces and the law of universal gravitation. Building on his analysis of Newton's methodology, Professor Cohen explores the fine structure of revolutionary change and scientific creativity in general. This is done by developing the concept of scientific change as a series of transformations of existing ideas. It is shown that such transformation is characteristic of many aspects of the sciences and that the concept of scientific change by transformation suggests a new way of examining the very nature of scientific creativity.
Physics and Politics in Revolutionary Russia by Paul R. Josephson Pdf
Aided by personal documents and institutional archives that were closed for decades, this book recounts the development of physics—or, more aptly, science under stress—in Soviet Russia up to World War II. Focusing on Leningrad, center of Soviet physics until the late 1930s, Josephson discusses the impact of scientific, cultural, and political revolution on physicists' research and professional aspirations. Political and social revolution in Russia threatened to confound the scientific revolution. Physicists eager to investigate new concepts of space, energy, light, and motion were forced to accommodate dialectical materialism and subordinate their interests to those of the state. They ultimately faced Stalinist purges and the shift of physics leadership to Moscow. This account of scientists cut off from their Western colleagues reveals a little-known part of the history of modern physics.
Nicolaus Copernicus gave the world perhaps the most important scientific insight of modern era: the theory that the earth and the other planets revolve around the sun. He was also the first to proclaim that the earth rotates on its axis once every 24 hours. He was a true radical of this time. Despite being a genius of the early Renaissance, he was also a flawed and conflicted person. A cleric who lived during the tumultuous years of the early Reformation, he may have been sympathetic to the teachings of the Lutherans. Although he had taken a vow of celibacy, he kept at least one mistress. He hid his astronomical work, revealing it to only a few intimates, and the manuscript that contained his revolutionary theory that he refined for over 20 years, remained 'hidden among my things'. His work was discovered and brought to light by a young mathematics professor who heard his ideas and journeyed hundreds of miles and risked personal danger to meet with Copernicus. Copernicus' Secret recreates the life and world of the scientific genius whose work revolutionised astronomy and altered our understanding of our place in the world, forever. Revealing a surprising, little known story behind the dawn of the scientific age, his story is compelling and remarkable. Jack Repcheck is an editor at WW Norton & Co, where he publishes the work of leading scientists and economists. His previous book was the critically acclaimed The Man Who Found Time: James Hutton and the Discovery of the Earth's Antiquity.
The Strength in Numbers by Barry Bozeman,Jan Youtie Pdf
Why collaborations in STEM fields succeed or fail and how to ensure success Once upon a time, it was the lone scientist who achieved brilliant breakthroughs. No longer. Today, science is done in teams of as many as hundreds of researchers who may be scattered across continents. These collaborations can be powerful, but they also demand new ways of thinking. The Strength in Numbers illuminates the nascent science of team science by synthesizing the results of the most far-reaching study to date on collaboration among university scientists. Drawing on a national survey with responses from researchers at more than one hundred universities, archival data, and extensive interviews with scientists and engineers in over a dozen STEM disciplines, Barry Bozeman and Jan Youtie establish a framework for characterizing different collaborations and their outcomes, and lay out what they have found to be the gold-standard approach: consultative collaboration management. The Strength in Numbers is an indispensable guide for scientists interested in maximizing collaborative success.
