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This volume offers a reappraisal of the topic of scientific and technological traveling and takes the viewpoint of the European peripheries, including case studies of Portugal, Spain, Greece, Turkey, Russia, Hungary and the Scandinavian countries. It contributes to the clarification of mechanisms of appropriation of scientific ideas, instruments, practices and of technological expertise. It is of interest to scholars and students of history and philosophy of science and technology, cultural and social history, science, technology and society studies.

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University of Illinois at Urbana-Champaign. Library. Rare Book Room

Published: 1972

Total Pages: 824


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Classification is an important part of science, yet the specific methods used to construct Enlightenment systems of natural history have proven to be the bête noir of studies of eighteenth-century culture. One reason that systematic classification has received so little attention is that natural history was an extremely diverse subject which appealed to a wide range of practitioners, including wealthy patrons, professionals, and educators. In order to show how the classification practices of a defined institutional setting enabled naturalists to create systems of natural history, this book focuses on developments at Edinburgh's medical school, one of Europe's leading medical programs. In particular, it concentrates on one of Scotland's most influential Enlightenment naturalists, Rev Dr John Walker, the professor of natural history at the school from 1779 to 1803. Walker was a traveller, cleric, author and advisor to extremely powerful aristocratic and government patrons, as well as teacher to hundreds of students, some of whom would go on to become influential industrialists, scientists, physicians and politicians. This book explains how Walker used his networks of patrons and early training in chemistry to become an eighteenth-century naturalist. Walker's mineralogy was based firmly in chemistry, an approach common in Edinburgh's medical school, but a connection that has been generally overlooked in the history of British geology. By explicitly connecting eighteenth-century geology to the chemistry being taught in medical settings, this book offers a dynamic new interpretation of the nascent earth sciences as they were practiced in Enlightenment Britain. Because of Walker's influence on his many students, the book also provides a unique insight into how many of Britain's leading Regency and Victorian intellectuals were taught to think about the composition and structure of the material world.
The articles in this volume of ARCHIMEDES examine particular cases of `reception' in ways that emphasize pressing historiographical and methodological issues. Such issues arise in any consideration of the transmission and appropriation of scientific concepts and practices that originated in the several `centers' of European learning, subsequently to appear (often in considerably altered guise) in regions at the European periphery. They discuss the transfer of new scientific ideas, the mechanisms of their introduction, and the processes of their appropriation at the periphery. The themes that frame the discussions of the complex relationship between the origination of ideas and their reception include the ways in which the ideas of the Scientific Revolution were introduced, the particularities of their expression in each place, the specific forms of resistance encountered by these new ideas, the extent to which such expression and resistance displays national characteristics, the procedures through which new ways of dealing with nature were made legitimate, and the commonalities and differences between the methods developed by scholars for handling scientific issues.
The development of chemistry, like that of the other fields of science and technology, has depended greatly upon the availability of instruments. Accordingly, the study of the history of instrumentation is a major area in any survey of the progress in this science. Recognizing this fact, the Division of the History of Chemistry of the American Chemical Society organized and held a very successful symposium on the history of chemical instrumentation during the Washington, D.C. National Meeting in 1979. Re~arks, both formal and informal, made during this symposium stressed points that soon become obvious to anyone who looks at the ancestry of present-day instruments . In some cases, the total history is measured in years, rather than in centuries . Chemical instrumentation, by no means confined to the laboratory, is vital in industry. There is a natural tendency to discard an item of any kind when a newer version is acquired. Often, "to discard" means "to scrap". If the item scrapped is an instrument that is unique - sometimes the last of its kind - we have a permanent artefactual gap in the history of science.