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In the twentieth century, dyes, pharmaceuticals, photographic products, explosives, insecticides, fertilizers, synthetic rubber, fuels, and fibers, plastics, and other products have flowed out of the chemical industry and into the consumer economies, war machines, farms, and medical practices of industrial societies. The German chemical industry has been a major site for the development and application of the science-based technologies that gave rise to these products, and has had an important role as exemplar, stimulus, and competitor in the international chemical industry. This volume explores the German chemical industry's scientific and technological dimension, its international connections, and its development after 1945. The authors relate scientific and technological change in the industry to evolving German political and economic circumstances, including two world wars, the rise and fall of National Socialism, the post-war division of Germany, and the emergence of a global economy. This book will be of interest to historians of modern Germany, to historians of science and technology, and to business and economic historians.
Providing a wide range of case studies in sustainable tourism planning, this authoritative work presents cases at both international and national levels as well as on a regional, sub-regional, urban, local and site scale. Drawing on the author's world-wide experience and with contributions from professionals in the field, this book takes a comparative approach relating to different economic, political and temporal dimensions, examining established initiatives both in the context of the standards of the time and from a modern perspective looking back. With an emphasis on sustainability, this unique collection is an essential resource for tourism planners, researchers and students.
constitutive of reference in laboratory sciences as cultural sign systems and their manipulation and superposition, collectively shared classifications and associated conceptual frameworks,ยท and various fonns of collective action and social institutions. This raises the question of how much modes of representation, and specific types of sign systems mobilized to construct them, contribute to reference. Semioticians have argued that sign systems are not merely passive media for expressing preconceived ideas but actively contribute to meaning. Sign systems are culturally loaded with meaning stemming from previous practical applications and social traditions of applications. In new local conte...
Aniline is the parent molecule of a vast family of aromatic amines. Since its discovery in 1826 it has become one of the hundred most important building blocks in chemistry. Aniline is used as an intermediate in many different fields of applications, such as isocyanates, rubber processing chemicals, dyes and pigments, agricultural chemicals and pharmaceuticals. The understanding of functional groups is key for the understanding of all organic chemistry. In the tradition of the Patai Series, this volume treats all aspects of this functional group. It contains chapters on the theoretical and computational foundations; on analytical and spectroscopical aspects with dedicated chapters on Mass Spectrometry, NMR, IR/UV, etc.; on reaction mechanisms; on applications in syntheses.
This book represents a first considered attempt to study the factors that conditioned industrial chemistry for war in 1914-18. Taking a comparative perspective, it reflects on the experience of France, Germany, Austria, Russia, Britain, Italy and Russia, and points to significant similarities and differences. It looks at changing patterns in the organisation of industry, and at the emerging symbiosis between science, industry and the military.
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.
Colouring Textiles is an attempt to provide a new cross-cultural comparative approach to the art of dyeing and printing with natural dyestuffs in the eighteenth and nineteenth centuries. Divided into thematic chapters, it uncovers new data from the vast historical heritage of natural dyestuffs from a range of European cities, to present new historiographic insights for the understanding of this technology. Through a sort of anatomic dissection, the book explores the study and cultivation of dye-plants in botanical gardens and plantations, and the tacit values hidden in dyeing workshops, factories, laboratories, or national and international exhibitions. It metaphorically submits the natural ...
Table of contents includes: Soap and Nicholas Leblanc, Color and William Henry Perkin, Sugar and Norbert Rillieux, Clean water and Edward Frankland, Fertilizer, poison gas, and Fritz Haber, Leaded gasoline, safe refrigeration and Thomas Midgley, Jr., Nylon and Wallace Hume Carothers, DDT and Paul Hermann Muller, Lead-free gasoline and Clair C. Patterson.
Cited frequently, but analyzed rarely, the rise of the synthetic dyestuffs industry and the nature of its technology have, until the present work, remained poorly understood. This has led to the perpetuation of several misconceptions, such as the belief that the industry was wholly science-based from the start.
Prakash Kumar documents the history of agricultural indigo, exploring the effects of nineteenth-century globalisation on this colonial industry. Charting the indigo culture from the early modern period to the twentieth century, Kumar discusses how knowledge of indigo culture thrived among peasant traditions on the Indian subcontinent in the early modern period and was then developed by Caribbean planters and French naturalists who codified this knowledge into widely disseminated texts. European planters who settled in Bengal with the establishment of British rule in the late eighteenth century drew on this information. From the nineteenth century, indigo culture became more modern, science-based and expert driven, and with the advent of a cheaper, purer synthetic indigo in 1897, indigo science crossed paths with the colonial state's effort to develop a science for agricultural development. Only at the end of the First World War, when the industrial use of synthetic indigo for textile dyeing and printing became almost universal, did the indigo industry's optimism fade away.