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In this detailed historical and sociological study of the development of scientific ideas, Jonathan Harwood argues that there is no such thing as a unitary scientific method driven by an internal logic. Rather, there are national styles of science that are defined by different values, norms, assumptions, research traditions, and funding patterns. The first book-length treatment of genetics in Germany, Styles of Scientific Thought demonstrates the influence of culture on science by comparing the American with the German scientific traditions. Harwood examines the structure of academic and research institutions, the educational backgrounds of geneticists, and cultural traditions, among many factors, to explain why the American approach was much more narrowly focussed than the German. This tremendously rich book fills a gap between histories of the physical sciences in the Weimar Republic and other works on the humanities and the arts during the intellectually innovative 1920s, and it will interest European historians, as well as sociologists and philosophers of science.
"A highly readable historical survey of the major developments in scientific thought and the impact of science on Western culture, this book takes the reader from ancient times through to the twentieth century. Organized chronologically, the book explores the history of studies of the natural world, and man's role within that world, in a single volume"--Provided by publisher.
The highly acclaimed first edition of this major work convincingly established Gerald Holton’s analysis of the ways scientific ideas evolve. His concept of “themata,” induced from case studies with special attention to the work of Einstein, has become one of the chief tools for understanding scientific progress. It is now one of the main approaches in the study of the initiation and acceptance of individual scientific insights. Three principal consequences of this perspective extend beyond the study of the history of science itself. It provides philosophers of science with the kind of raw material on which some of the best work in their field is based. It helps intellectual historians to redefine the place of modern science in contemporary culture by identifying influences on the scientific imagination. And it prompts educators to reexamine the conventional concepts of education in science. In this new edition, Holton has masterfully reshaped the contents and widened the coverage. Significant new material has been added, including a penetrating account of the advent of quantum physics in the United States, and a broad consideration of the integrity of science, as exemplified in the work of Niels Bohr. In addition, a revised introduction and a new postscript provide an updated perspective on the role of themata. The result of this thoroughgoing revision is an indispensable volume for scholars and students of scientific thought and intellectual history.
Since the summer of 1973, when I became a Burroughs Research Fellow, my life has been very different from what it had been before. The daily routine changed: instead of going to the University each day, where I used to spend most of my time in the company of others, I now went there only one day a week and was most of the time -that is, when not travelling!- alone in my study. In my solitude, mail and the written word in general became more and more important. The circumstance that my employer and I had the Atlantic Ocean between us was a further incentive to keep a fairly complete record of what I was doing. The public part of that output found its place in what became known as "the EWD series", which can be viewed as a form of scientific correspondence, possible since the advent of the copier. (That same copier makes it hard to estimate its actual distribution: I myself made about two dozen copies of my texts, but their recipients were welcome to act as further nodes of the distribution tree. ) The decision to publish a se1ection from the EWD series in book form was at first highly embarrassing, but as the months went by I got used to the idea. As soon as some guiding principles had been adopted -preferably not published elsewhere, as varied and as representative as possible, etc.
A series of meditative or considered essays, examining nodal points in the long history of science from the first emergence of experts writing on clay in Babylonia.
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
This book is a compendium of essays on various science related topics which are at the cutting edge of modern science and technology. Sixteen different science topics are discussed in the book, which include origin and evolution of the universe, the microscopic world of the atom, unification of the forces of nature, our planet earth and its neighbors, modern developments in synthetic biology, global warming, artificial intelligence and the explosive growth of information technology. The book exposes its readers having a modest science background to some of the most exciting developments in modern science. Keeping this in view the discussion is kept at a simple level without excessive use of mathematics and abstract concepts. While aiming at simplicity and coherence every effort is made not to compromise on accuracy. We are living in an era where scientists specializing in a particular area are hardly aware of the happenings in related disciplines. This book aims at bridging this gap. Finally there are sizable sections of science educated lay public who are curious to understand the how and the why of modern scientific developments at a very basic level. It is hoped that this book will be helpful in satisfying their curiosity.