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This classic exposition explores the origins of chemistry, alchemy, early medical chemistry, nature of atmosphere, theory of valency, laws and structure of atomic theory, and much more.
From man's first exploration of natural materials and their transformations to today's materials science, chemistry has always been the central discipline that underpins both the physical and biological sciences, as well as technology. In this Very Short Introduction, William H Brock traces the unique appeal of this fundamental science throughout history. Covering alchemy, early-modern chemistry, pneumatic chemistry and Lavoisier's re-interpretation of chemical change, the rise of organic and physical chemistry, and the transforming power of synthesis, Brock explores the extraordinary and often puzzling transformations of natural and artificial materials, as well as the men and women who experimented, speculated, and explained matter and change. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area These pocket-sized books are the perfect way to get ahead in a new subject quickly Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.
The history of science is a story of human discovery--intertwined with religion, philosophy, economics and technology. The fourth in a series, this book covers the beginnings of the modern world, when 16th-century Europeans began to realize that their scientific achievements surpassed those of the Greeks and Romans. Western Civilization organized itself around the idea that human technological and moral progress was achievable and desirable. Science emerged in 17th-century Europe as scholars subordinated reason to empiricism. Inspired by the example of physics, men like Robert Boyle began the process of changing alchemy into the exact science of chemistry. During the 18th century, European society became more secular and tolerant. Philosophers and economists developed many of the ideas underpinning modern social theories and economic policies. As the Industrial Revolution fundamentally transformed the world by increasing productivity, people became more affluent, better educated and urbanized, and the world entered an era of unprecedented prosperity and progress.
Ethyl alcohol, or ethanol, is one of the most ubiquitous chemical compounds in the history of the chemical sciences. The generation of alcohol via fermentation is also one of the oldest forms of chemical technology, with the production of fermented beverages such as mead, beer and wine predating the smelting of metals. By the 12th century, the ability to isolate alcohol from wine had moved this chemical species from a simple component of alcoholic beverages to both a new medicine and a powerful new solvent. Of course, this also began the long tradition of production of liqueurs and strong spirits for consumption. The use of alcohol as a fuel, however, did not occur until significantly later periods. This volume presents a general overview of the early history and chemistry of alcohol production and isolation, as well as a discussion of its early uses in both the chemical arts and medicine.
"This publication is a translation of the book entitles Gendai Kagakusi (A History of Modern Chemistry) published by Kyoto University Press in 2013.
The focus of this volume by Professor Russell is the history of organic chemistry, which arose improbably out of early speculations about the construction of chemical compounds, and in particular their electrochemical nature. The rise of electrochemistry and the work of Berzelius were critical in this regard, and receive much attention in the first few chapters in this book. Aspects of the contributions of Frankland (fully explored elsewhere) and those of Kekulê and Hofmann are considered, together with the miscellaneous functions of organic synthesis and the origins of conformational analysis. Questions of chemical organisation are germane to the whole sequence of events and are briefly summarized before the whole last hundred years of organic chemistry are placed in historical perspective.
The papers in this volume underscore the role that analytical techniques can play in the investigation of artifacts and debris by providing information about the technology of metallurgy in antiquity. They include contributions on copper production in Transjordan; bronze casting in classical Greece; a historical account of the Turm-Rosenhof silver mine in Germany; analytical studies of Etruscan bronze mirrors, lead and bronze artifacts from Carthage, prehistoric and early historic artifacts of the Inuit people of the Canadian Arctic, and a variety of artifacts from colonial Pennsylvania. MASCA Vol. 6
From alchemy to industry, this authoritative volume is a synthetic history of chemistry through the ages, from its development as a scientific philosophy to its modern-day practical applications. A "New York Times" Notable Book. of illustrations.
Chemistry and Lithography provides a comprehensive treatment of the chemical phenomena in lithography in a manner that is accessible to a wide readership. The book presents topics on the optical and charged particle physics practiced in lithography, with a broader view of how the marriage between chemistry and optics has made possible the print and electronic revolutions of the digital age. The related aspects of lithography are thematically presented to convey a unified view of the developments in the field over time, from the very first recorded reflections on the nature of matter to the latest developments at the frontiers of lithography science and technology. Part I presents several important chemical and physical principles involved in the invention and evolution of lithography. Part II covers the processes for the synthesis, manufacture, usage, and handling of lithographic chemicals and materials. Part III investigates several important chemical and physical principles involved in the practice of lithography. Chemistry and Lithography is a useful reference for anyone working in the semiconductor industry.