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Eilhard Mitscherlich (1794-1863) holds an important position among the chemists who created the basis of postLavoisier chemistry. His discoveries of iso- and polymorphism; his pioneering work on catalysis; and his research on benzene and benzene derivatives, the formation of ethers, and alchoholic fermentation belong to the truly fundamental achievements of classical chemistry. In 1822, at the instigation of his mentor Berzelius, Mitscherlich became the successor of Klaproth both as member of the Royal Prussian Academy of Sciences and as full professor at the Friedrich-Wilhelm University. Despite his long quarrels with Liebig, the most influential chemist in Germany, Mitscherlich remained the most eminent representative of chemistry in Prussia. When he died, an epoch of chemistry in Berlin drew to an end.
Though rarely noted, women have been active participants in the chemical sciences since the beginning of recorded history. This thought-provoking book brings to life the many talented women who--besides the universally respected Marie Curie--made significant contributions to chemistry. The Rayner-Canhams examine the forces that have defined women's roles in the progress of chemistry, observing that many were thwarted from capitalizing on their achievements by the prejudices of their time. Their book discusses women chemists from as far past as the Babylonian civilization but focuses on professional women chemists from the mid-19th century, when women gained access to higher education. Read this book and learn about the chemist-assistants of the French salons, about independent researchers in the 19th century, about the three disciplinary havens for women in the 20th century, about how war helped bring women into the chemical industry--and much more!
Philosophical Chemistry furthers Manuel DeLanda's revolutionary intervention in the philosophy of science and science studies. Against a monadic and totalizing understanding of science, DeLanda's historicizing investigation traces the centrality of divergence, specialization and hybridization through the fields and subfields of chemistry. The strategy followed uses a series of chemical textbooks, separated from each other by fifty year periods (1750, 1800, 1850, and 1900), to follow the historical formation of consensus practices. The three chapters deal with one subfield of chemistry in the century in which it was developed: eighteenth-century inorganic chemistry, nineteenth-century organic chemistry, and nineteenth-century physical chemistry. This book creates a model of a scientific field capable of accommodating the variation and differentiation evident in the history of scientific practice. DeLanda proposes a model that is made of three components: a domain of phenomena, a community of practitioners, and a set of instruments and techniques connecting the community to the domain. Philosophical Chemistry will be essential reading for those engaged in emergent, radical and contemporary strands of thought in the philosophy of science and for those scholars and students who strive to practice a productive dialogue between the two disciplines.
An introductory guide that is designed particularly for teachers and their students, but is useful in many other contexts. This new edition lists reference works; histories of science and technology; histories of the chemical sciences and industries including company histories; autobiographies and biographies; edited classical texts; and journals.
Designed to serve as the first point of reference on the subject, Comprehensive Chemometrics presents an integrated summary of the present state of chemical and biochemical data analysis and manipulation. The work covers all major areas ranging from statistics to data acquisition, analysis, and applications. This major reference work provides broad-ranging, validated summaries of the major topics in chemometrics—with chapter introductions and advanced reviews for each area. The level of material is appropriate for graduate students as well as active researchers seeking a ready reference on obtaining and analyzing scientific data. Features the contributions of leading experts from 21 countries, under the guidance of the Editors-in-Chief and a team of specialist Section Editors: L. Buydens; D. Coomans; P. Van Espen; A. De Juan; J.H. Kalivas; B.K. Lavine; R. Leardi; R. Phan-Tan-Luu; L.A. Sarabia; and J. Trygg Examines the merits and limitations of each technique through practical examples and extensive visuals: 368 tables and more than 1,300 illustrations (750 in full color) Integrates coverage of chemical and biological methods, allowing readers to consider and test a range of techniques Consists of 2,200 pages and more than 90 review articles, making it the most comprehensive work of its kind Offers print and online purchase options, the latter of which delivers flexibility, accessibility, and usability through the search tools and other productivity-enhancing features of ScienceDirect
A prominent civil servant, scientist, and intellectual, Taghi Erani was a pivotal figure in interwar Iran. Witness to two of the major political upheavals in the twentieth century—the rise of Pahlavi and the collapse of the Weimar Republic—he turned from fundamental science to leftwing activism and pacifism, leading to his arrest and death in prison. Younes Jalali traces his journey from Tehran to Berlin, where in the 1920s he crossed paths with the greatest German scientists and scholars of his day, including Max Planck, Albert Einstein, and Friedrich Rosen, and published seminal works on psychology and political philosophy. In the 1930s, as Reza Shah pursued rapprochement with the Third Reich, Taghi Erani was caught up in a crackdown on left-wing and pro-labor activists. His life and death offer a unique lens through which to view modern Iranian intellectual and political history.
The Coming of Materials Science both covers the discipline of materials science, and draws an impressionistic map of the present state of the subject.The first chapter examines the emergence of the materials science concept, in both academe and industry. The second and third chapters delve back into the prehistory of materials science, examining the growth of such concepts as atoms, crystals and thermodynamics, and also examine the evolution of a number of neighbouring disciplines, to see what helpful parallels might emerge. The book contains numerous literature references. Many refer to the earliest key papers and books, while others are to sources, often books, offering a view of the present state of a topic. Early references are to the past but as the book continues, it brings the reader up to date with more recent sources.The author, Professor Robert Cahn FRS, has striven to be critical about the history of the discipline of materials science and to draw general conclusions about scientific practice from what he has discovered about the evolution of materials science. Further issues that the book highlights include: What is a scientific discipline? How do disciplines merge and differentiate? Can a discipline also be interdisciplinary? Is materials science a real discipline? A large range of themes is presented in the book and readers are invited to interact with the author if they reach alternative conclusions. This book is not just for reading and reference, but exists to stimulate thought and provoke discussion as well.
This work examines the intersection of science and politics in the work of Francois Arago and Jean-Baptiste Biot, the principle architects of the optical revolution of early 19th-century France. Their disagreement over the optical accessibility of the world played out across a wide range of French culture.
During the 19th century, much of the modern scientific enterprise took shape: scientific disciplines were formed, institutions and communities were founded and unprecedented applications to and interactions with other aspects of society and culture occurred. taught us about this exciting time and identify issues that remain unexamined or require reconsideration. They treat scientific disciplines - biology, physics, chemistry, the earth sciences, mathematics and the social sciences - in their specific intellectual and sociocultural contexts as well as the broader topics of science and medicine; science and religion; scientific institutions and communities; and science, technology and industry. From Natural Philosophy to the Sciences should be valuable for historians of science, but also of great interest to scholars of all aspects of 19th-century life and culture.
Dmitrii Mendeleev (1834–1907) is a name we recognize, but perhaps only as the creator of the periodic table of elements. Generally, little else has been known about him. A Well-Ordered Thing is an authoritative biography of Mendeleev that draws a multifaceted portrait of his life for the first time. As Michael Gordin reveals, Mendeleev was not only a luminary in the history of science, he was also an astonishingly wide-ranging political and cultural figure. From his attack on Spiritualism to his failed voyage to the Arctic and his near-mythical hot-air balloon trip, this is the story of an extraordinary maverick. The ideals that shaped his work outside science also led Mendeleev to order the elements and, eventually, to engineer one of the most fascinating scientific developments of the nineteenth century. A Well-Ordered Thing is a classic work that tells the story of one of the world’s most important minds.