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The Reader's Guide to the History of Science looks at the literature of science in some 550 entries on individuals (Einstein), institutions and disciplines (Mathematics), general themes (Romantic Science) and central concepts (Paradigm and Fact). The history of science is construed widely to include the history of medicine and technology as is reflected in the range of disciplines from which the international team of 200 contributors are drawn.
First Published in 2001. Routledge is an imprint of Taylor & Francis, an informa company.
Philosophy, Science, and History: A Guide and Reader is a compact overview of the history and philosophy of science that aims to introduce students to the groundwork of the field, and to stimulate innovative research. The general introduction focuses on scientific theory change, assessment, discovery, and pursuit. Part I of the Reader begins with classic texts in the history of logical empiricism, including Reichenbach’s discovery-justification distinction. With careful reference to Kuhn’s analysis of scientific revolutions, the section provides key texts analyzing the relationship of HOPOS to the history of science, including texts by Santayana, Rudwick, and Shapin and Schaffer. Part II provides texts illuminating central debates in the history of science and its philosophy. These include the history of natural philosophy (Descartes, Newton, Leibniz, Kant, Hume, and du Châtelet in a new translation); induction and the logic of discovery (including the Mill-Whewell debate, Duhem, and Hanson); and catastrophism versus uniformitarianism in natural history (Playfair on Hutton and Lyell; de Buffon, Cuvier, and Darwin). The editor’s introductions to each section provide a broader perspective informed by contemporary research in each area, including related topics. Each introduction furnishes proposals, including thematic bibliographies, for innovative research questions and projects in the classroom and in the field.
The Reader's Guide to the History of Science looks at the literature of science in some 550 entries on individuals (Einstein), institutions and disciplines (Mathematics), general themes (Romantic Science) and central concepts (Paradigm and Fact). The history of science is construed widely to include the history of medicine and technology as is reflected in the range of disciplines from which the international team of 200 contributors are drawn.
STUMPED BY SCIENCE? Make learning easy with this do-it-yourself study guide that includes everything kids need to know to tackle middle school science! Learning is an adventure both inside and outside of the classroom with the How to Survive Middle School study guide series! These colorful, highly visual books cover all the essential info kids need to ace important middle school classes. Large topics are broken down into easy-to-digest chunks, and reflective questions help kids check understanding and become critical thinkers. Written by middle school teachers and vetted by curriculum experts, this series is the perfect school supplement or homeschool resource—and a great way to help create independent learners. HTSMS: Science includes key facts and super-helpful illustrations, diagrams, and vocab that explore topics including: The Scientific Method The Solar System Fossil Fuels and Climate Change The Periodic Table Chemical Bonds Ecosystems and Cells Speed, Velocity, and Acceleration Laws of Motion and more! Books also available for: World History, English, Math, and U.S. History.
This volume, compiled in honor of Sam Schweber, an outstanding historian of science, physicist and exceptional human being, offers a comprehensive survey of the present state of the history of science. It collects essays written by leading representatives in the field. The essays examine the state of the history of science today and issues related to its future.
"When Darwin returned to Britain from the Beagle voyage in 1836, the most talked-about scientific books were the Bridgewater Treatises. This series of eight books was funded by a bequest of the last Earl of Bridgewater, and they were authored by leading men of science, appointed by the President of the Royal Society, and intended to explore "the power, wisdom, and goodness of God, as manifested in the creation." Securing public attention beyond all expectations, the series gave Darwin's generation a range of approaches to one of the great questions of the age: how to incorporate the newly emerging disciplinary sciences into Britain's overwhelmingly Christian culture. Drawing on a wealth of archival and published sources, including many unexplored by historians, Jonathan R. Topham examines how and to what extent the series contributed to a sense of congruence between Christianity and the sciences in the generation before the infamous Victorian "conflict between science and religion." He does so by drawing on the distinctive insights of book history, using close attention to the production, circulation, and use of the books to open up new perspectives not only on aspects of early Victorian science but also on the whole subject of science and religion. Its innovative focus on practices of authorship, publishing, and reading helps us to understand the everyday considerations and activities through which the religious culture of early Victorian science was fashioned. And in doing so, Reading the Book of Nature powerfully reimagines the world in which a young Charles Darwin learned how to think about the implications of his theory"--
A global view of science and technology as it developed over the centuries.
While the physical sciences are a continuously evolving source of technology and of understanding about our world, they have become so specialized and rely on so much prerequisite knowledge that for many people today the divide between the sciences and the humanities seems even greater than it was when C. P. Snow delivered his famous 1959 lecture,
Epigenetics can potentially revolutionize our understanding of the structure and behavior of biological life on Earth. It explains why mapping an organism's genetic code is not enough to determine how it develops or acts and shows how nurture combines with nature to engineer biological diversity. Surveying the twenty-year history of the field while also highlighting its latest findings and innovations, this volume provides a readily understandable introduction to the foundations of epigenetics. Nessa Carey, a leading epigenetics researcher, connects the field's arguments to such diverse phenomena as how ants and queen bees control their colonies; why tortoiseshell cats are always female; why some plants need cold weather before they can flower; and how our bodies age and develop disease. Reaching beyond biology, epigenetics now informs work on drug addiction, the long-term effects of famine, and the physical and psychological consequences of childhood trauma. Carey concludes with a discussion of the future directions for this research and its ability to improve human health and well-being.