The Quintessence of Irving Langmuir


Book Description

The Quintessence of Irving Langmuir is a biography on the life of Irving Langmuir. The book was created to complement the volume entitled "The Collected Works of Irving Langmuir. This selection was created to introduce the person and his works. Special attention has been given to Langmuir's early life and family background. The text begins with an account of the person's child seen from the mother's perspective. Such an account was taken from the family's documents. These documents are in the form of letters, diaries, photograph albums, newspaper clippings, and genealogical studies. A brief history about the formation of General Electric Company is also covered. A great part of the book relates the life of Langmuir as a father and as a scientist. Among his inventions is using dry ice for cloud seeding. One of his greatest achievements is receiving a Nobel Prize in Chemistry. The book is directed to the general public.







Cathedrals of Science


Book Description

In Cathedrals of Science, Patrick Coffey describes how chemistry got its modern footing-how thirteen brilliant men and one woman struggled with the laws of the universe and with each other. They wanted to discover how the world worked, but they also wanted credit for making those discoveries, and their personalities often affected how that credit was assigned. Gilbert Lewis, for example, could be reclusive and resentful, and his enmity with Walther Nernst may have cost him the Nobel Prize; Irving Langmuir, gregarious and charming, "rediscovered" Lewis's theory of the chemical bond and received much of the credit for it. Langmuir's personality smoothed his path to the Nobel Prize over Lewis. Coffey deals with moral and societal issues as well. These same scientists were the first to be seen by their countries as military assets. Fritz Haber, dubbed the "father of chemical warfare," pioneered the use of poison gas in World War I-vividly described-and Glenn Seaborg and Harold Urey were leaders in World War II's Manhattan Project; Urey and Linus Pauling worked for nuclear disarmament after the war. Science was not always fair, and many were excluded. The Nazis pushed Jewish scientists like Haber from their posts in the 1930s. Anti-Semitism was also a force in American chemistry, and few women were allowed in; Pauling, for example, used his influence to cut off the funding and block the publications of his rival, Dorothy Wrinch. Cathedrals of Science paints a colorful portrait of the building of modern chemistry from the late 19th to the mid-20th century.




Manheimer's Cataloging and Classification, Revised and Expanded


Book Description

This work has been revised and updated to include the Anglo-American Cataloguing Rules (2nd ed), the Dewey Decimal System Classification (21st ed) and the Library of Congress Classification Schedules. The text details the essential elements of the International Standard Bibliographic Description; introduces the associated OCLC/MARC specifications; and more. The downloadable resources give more than 500 PowerPoint slides and graphics identical to the text, in addition to scans of the title page, and title page verso and other illustrations that support examples from Anglo-American Cataloguing Rules (2nd ed).




Langmuir, the Man and the Scientist


Book Description

The Collected Works of Irving Langmuir: Volume 12, Langmuir, the Man and the Scientist presents the biography of Irving Langmuir, General Electric's foremost research scientist, which also includes a chronological summary of his contributions to science. Irving Langmuir, born on January 31, 1881 in New York, attends Public School No. 11 when he is seven. When he reaches 15, he attends Chestnut Hill Academy in Philadelphia. His eye troubles become worse making him wear glasses; later in life, he has cataracts removed from both eyes. He graduates with a Bachelor of Science degree in metallurgical engineering from Columbia University in 1903. In 1906, Langmuir earns his Ph.D., degree from Gottingen. He accepts an instructor position in Chemistry at Stevens Institute of Technology, New Jersey, until 1909 when joins the General Electric Company. In the next years, he receives numerous awards such as the Nichols Medal, Cannizaro Prize, Willar Gibbs Medal. In 1912, he marries Marion Mersereau. He receives the Nobel Prize for Chemistry in 1932. Among his contributions to science are an improved tungsten filament design used in incandescent bulbs, an atomic hydrogen welding torch, and theories of atomic structure and chemical bond formations. He dies of a heart attack in 1957 at the age of 76. Students, and academicians involved in history, general readers, and scientists interested in the lives of great men in science will find this book pleasant reading.




Representing Electrons


Book Description

Both a history and a metahistory, Representing Electrons focuses on the development of various theoretical representations of electrons from the late 1890s to 1925 and the methodological problems associated with writing about unobservable scientific entities. Using the electron—or rather its representation—as a historical actor, Theodore Arabatzis illustrates the emergence and gradual consolidation of its representation in physics, its career throughout old quantum theory, and its appropriation and reinterpretation by chemists. As Arabatzis develops this novel biographical approach, he portrays scientific representations as partly autonomous agents with lives of their own. Furthermore, he argues that the considerable variance in the representation of the electron does not undermine its stable identity or existence. Raising philosophical issues of contentious debate in the history and philosophy of science—namely, scientific realism and meaning change—Arabatzis addresses the history of the electron across disciplines, integrating historical narrative with philosophical analysis in a book that will be a touchstone for historians and philosophers of science and scientists alike.




Willis R. Whitney, General Electric and the Origins of U.S. Industrial Research


Book Description

Born in Jamestown, New York, Willis R. Whitney (1868-1958) was the longtime director of General Electric’s Research Laboratory and is widely considered one of the fathers of industrial research. He graduated from MIT in 1890 to become assistant professor of chemistry there. In 1896, he received his Ph.D. from the University of Leipzig under Wilhelm Ostwald. Having grown dissatisfied with purely academic work, he jumped at the opportunity, provided by Elihu Thompson in 1900, to become director of the newly created GE Research Laboratory. The laboratory was “to be devoted exclusively to original research.” “It is hoped,” a 1902 report stated, “that many profitable fields may be discovered” and so it was: when Whitney took over, GE needed more economical lamp filaments and the laboratory developed a new form of “metallized” carbon which gave 25% more light for the same wattage, the first radical improvement in Edison’s incandescent carbon filament. Millions of the new lamps were sold in a single year. The laboratory’s many other contributions include the tungsten lamp, several applications for wrought tungsten (replacing platinum targets in X-ray tubes and platinum contacts in spark coils, magnetos and relays) and the Coolidge X-ray tube in a wide range of sizes. Whitney’s broad scientific knowledge, ability as a chemist and resourcefulness as an experimenter lay the basis for all the work of the laboratory. He stepped down as director in 1932. He was a member of numerous institutions including the American Institute of Electrical Engineers, American Society of Electrochemical Engineers, National Academy of Sciences, British Institute of Metals, and National Research Council, and he received many honors, such as the Willard Gibbs Medal in 1920, the Perkin Medal in 1921, the Gold Medal of the National Institute of Social Sciences in 1928, and the AIEE Edison Medal in 1934 for “his contributions to electrical science, his pioneer inventions, and his inspiring leadership in research.” “Whitney invented modern industrial research... George Wise re-creates much of the anxiety and excitement of the decades when business discovered science and vice versa.” — David Diamond, The New York Times “Wise has not simply written biography and a story of the research laboratory at General Electric but also a great deal of General Electric history and history of technology as well... The author’s technical and scientific presentations are generally lucid and accessible to the layperson.” — Martha M. Trescott, Journal of Economic History “[A] book of many strengths. Most immediately apparent is the very high quality of the writing. As a skilled biographer, Wise succeeds in bringing the reader into the life of an interesting and important individual... Wise does not neglect the personal side of Whitney’s life, including his unhappy family situation and his personal illnesses... The primary focus, however, is on his work at GE, work the author expertly fits into broader patterns of science, industry and society in early twentieth-century America.” — James H. Madison, Journal of American History “[A] thoroughly researched and lucidly written book... Wise’s book makes important contributions to the understanding of the origins of industrial research and the development of science in the American context.” — John K. Smith, Technology and Culture “George Wise effectively develops the foundation for an interesting and in-depth view of a man who made an outstanding contribution to industrial research, while at the same time suffering personal disappointments and fighting a continuing battle with recurring mental depression... Wise’s book is warm, personal, and rich in historical background; it provides a view into the life of the individual who set the stage for industrial research in America.” — Alfred A. Bolton, Academy of Management Review “[An] important book... Wise’s portrayal of Whitney is acute and sensitive. Moreover, it demonstrates that the depiction of industrial scientists as either alienated and unhappy academics-in-exile or mindless minions of the giant corporation is overly simple... Wise has produced a first-rate study of a pioneering establishment that should be read by anyone interested in the crucial relationships between science and modern industry.” — Larry Owens, Business History Review “[A] turning point in the long-neglected history of industrial research. [N]ot merely outstanding... [a] definitive work that establish[es] critical standards for future research in this field... beautifully crafted... a sensitive and insightful biography of Willis R. Whitney.” — Edwin T. Lawton, Jr., Isis “Wise has accomplished perhaps the most difficult task before any biographer — successfully connecting his subject’s historical significance with the deeper elements of his humanity. This humanity is described with a biographer’s sympathy and a historian’s sophistication... Wise writes with sympathy and often charm, drawing not only from substantial archival records but also from dozens of interviews carried out with Whitney’s associates and workers... This biography will not only be the standard study of Whitney, but it will also provide a useful model and guide for all students of the key institutions of modern science.” — Robert Friedel, British Journal for the History of Science




Nobel Laureates in Chemistry, 1901-1992


Book Description

Through new perspectives from a mix of original monographs, biographies, autobiographical memoirs, edited collections of essays and documentary sources, translations, classic reprints, and pictorial volumes, this series will document the individuals, ideas, institutions, and innovations that have created the modern chemcial sciences.




The Making of American Industrial Research


Book Description

This book draws important lessons from the early days of industrial research in America.




I Died for Beauty


Book Description

"A biography of Dorothy Wrinch"-- Provided by publisher.