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Psychologists, sociologists, philosophers, historians - and even scientists themselves - have often tried to decipher the basis for creativity in science. Some have attributed creativity to a special logic, the so-called scientific method, whereas others have pointed to the inspirations of genius or to the inevitable workings of the zeitgeist. Finally, some have viewed scientific breakthroughs as the product of chance, as witnessed in the numerous episodes of serendipity. Too often these four alternative interpretations are seen as mutually exclusive. Yet the central thesis of this book is that the chance, logic, genius, and zeitgeist perspectives can be integrated into a single coherent theory of creativity in science. But for this integration to succeed, change must be elevated to the status of primary cause. Logic, genius and the zeitgeist still have significant roles to play but mainly operate insofar as they enhance, or constrain the operation of a chance combinatorial process.
Science is usually knownbyits most successful figures and resource-rich institutions. In stark contrast, Creativity from the Peripherydraws our attention to unknown figures in science—those who remain marginalized, even neglected, within its practices. Researchers in early twentieth-century colonial India, for example, have made significant contributions to the stock of scientific knowledge and have provided science with new breakthroughs and novel ideas, but to little acclaim. As Deepanwita Dasgupta argues, sometimes the best ideas in science are born from difficult and resource-poor conditions. Inthis study,she turns our attention to these peripheral actors, shedding new light on how scientific creativity operates in lesser-known, marginalized contexts, and how the work of self-trained researchers, though largely ignored , has contributed to important conceptual shifts. Her book presents a new philosophical framework for understanding this peripheral creativity in science through the lens of trading zones—where knowledge is exchanged between two unequal communities—and explores the implications for the future diversity of transnational science.
The Creativity Crisis excavates the root causes of America's innovation slow-down, showing why revolutionary insights are no longer chased by young talent. Economically and socially, caution has overtaken creation. This book is ultimately a roadmap for reinvigorating innovation within the system of science.
Long-term success in scientific research requires skills that go well beyond technical prowess. Success and Creativity in Scientific Research: Amaze Your Friends and Surprise Yourself is based on a popular series of lectures the author has given to PhD students, postdoctoral researchers, and faculty at the Georgia Institute of Technology. Both entertaining and thought-provoking, this essential work supports advanced students and early career professionals across a variety of technical disciplines to thrive as successful and innovative researchers. Features: Discusses habits needed to find deep satisfaction in research, systematic and proven methods for generating good ideas, strategies for effective technical writing, and making compelling presentations Uses a conversational tone, making extensive use of anecdotes from scientific luminaries to engage readers Provides actionable methods to help readers achieve long-term career success Offers memorable examples to illustrate general principles Features topics relevant to researchers in all disciplines of science and engineering This book is aimed at students and early career professionals who want to achieve the satisfaction of performing creative and impactful research in any area of science or engineering.
Discover how the creative brain works across musical, literary, visual artistic, kinesthetic and scientific spheres, and how to study it.
Mathematician Henri Poincaré was boarding a bus when he realized that the transformations of non-Euclidean geometry were just those he needed in his research on the theory of functions. He did not have to interrupt his conversation, still less to verify the equation in detail; his insight was complete at that point. Poincaré's insight into his own creativity -- his awareness that preliminary cogitation and the working of the subconscious had prepared his mind for an intuitive flash of recognition -- is just one of many possible analyses of scientific creativity, a subject as fascinating as it is elusive. The authors of this book have chosen to search for the springs of scientific creativity by examining the lives and work of a dozen innovative thinkers in the fields of mathematics, physics, and chemistry from the seventeenth down to the mid-twentieth century.
Scientific breakthroughs have had far-reaching social and physical effects on modern civilization, yet until recently, there have been relatively few investigations into the nature of scientific creativity itself. Flight from Wonder reports the findings from an empirical study of 42 Nobel laureates in science from the United States and Europe concerning the creative processes that yield scientific innovation. To this end, Albert Rothenberg designed an interview scheme to delineate the content and sequences of processes that lead scientists to specific creative achievements. He conducted interviews with Nobel laureates in the fields of medicine, physiology, physics, and chemistry while carrying out matching interviews with a control group consisting of twelve accomplished engineers on the faculty of a leading engineering university. Rothenberg's results demonstrate that the Nobel laureates perform three distinct cognitive creative processes to achieve key formulations and discoveries; the detailed nature and structure of these findings were reviewed and corroborated by each of the Nobel laureates. To supplement his findings, Rothenberg engages with autobiographical accounts and work-in-progress manuscripts pertaining to the creative discoveries of outstanding scientists of the past including Albert Einstein, Charles Darwin, Max Planck, Neils Bohr, Hideki Yukawa, and James Watson. The book will interest students and general science readers fascinated by the development of scientific inquiry and innovation.
From ancient drawings to the genius of Leonardo and Einstein to the imagination that colors our everyday life: the drive to create, innovate and make something new is a big part of what makes us human. Explore this and more in this new special edition from TIME, The Science of Creativity.
This book employs a new eco-cognitive model of abduction to underline the distributed and embodied nature of scientific cognition. Its main focus is on the knowledge-enhancing virtues of abduction and on the productive role of scientific models. What are the distinctive features that define the kind of knowledge produced by science? To provide an answer to this question, the book first addresses the ideas of Aristotle, who stressed the essential inferential and distributed role of external cognitive tools and epistemic mediators in abductive cognition. This is analyzed in depth from both a naturalized logic and an ecology of cognition perspective. It is shown how the maximization of cognition, and of abducibility – two typical goals of science – are related to a number of fundamental aspects: the optimization of the eco-cognitive situatedness; the maximization of changeability for both the input and the output of the inferences involved; a high degree of information-sensitiveness; and the need to record the “past life” of abductive inferential practices. Lastly, the book explains how some impoverished epistemological niches – the result of a growing epistemic irresponsibility associated with the commodification and commercialization of science – are now seriously jeopardizing the flourishing development of human creative abduction.
In the evolution of science and technology, laws governing exceptional creativity and innovation have yet to be discovered. In his influential study The Structure of Scientific Revolutions, the historian Thomas Kuhn noted that the final stage in a scientific breakthrough such as Albert Einstein’s theory of relativity—the most crucial step—was “inscrutable.” The same is still true half a century later. Yet, there has been considerable progress in understanding many stages and facets of exceptional creativity and innovation. In Exceptional Creativity in Science and Technology, editor Andrew Robinson gathers diverse contributors to explore this progress. This new collection arises from a symposium with the same title held at the Institute for Advanced Study (IAS) in Princeton. Organized by the John Templeton Foundation, the symposium had the late distinguished doctor and geneticist Baruch S. Blumberg as its chair. At the same time, its IAS host was the well-known physicist Freeman J. Dyson—both of whom have contributed chapters to the book. In addition to scientists, engineers, and an inventor, the book’s fifteen contributors include an economist, entrepreneurs, historians, and sociologists, all working at leading institutions, including Bell Laboratories, Microsoft Research, Oxford University, Princeton University, and Stanford University. Each contributor brings a unique perspective to the relationships between exceptional scientific creativity and innovation by individuals and institutions. The diverse list of disciplines covered, the high-profile contributors (including two Nobel laureates), and their fascinating insights into this overarching question—how exactly do we make breakthroughs?—will make this collection of interest to anyone involved with the creative process in any context. Still, it will especially appeal to readers in scientific and technological fields.