Henry Eyring “Chemist” Signed Inside Book National Academy of Science Vol. 51

Description: Henry Eyring "Chemist" SIGNED & Dated May 22, 1980 National Academy of Sciences of the United States of America, Biographical Memoirs, Vol. 51 Washington, D.C. 1980 Hardcover, 418 pages, 6” x 9” PREFACE ABRAHAM ADRIAN ALBERT BY IRVING KAPLANSKY LEONARD CARMICHAEL BY CARL PFAFFMANN LEMUEL ROSCOE CLEVELAND BY WILLIAM TRAGER LESTER REYNOLD DRAGSTEDT BY OWEN H. WANGENSTEEN AND SARAH D. WANGENSTEEN ALBERT EINSTEIN BY JOHN ARCHIBALD WHEELER WILLIAM MAURICE EWING BY EDWARD C. BULLARD ALFRED IRVING HALLOWELL BY ANTHONY F. C. WALLACE HERBERT SPENCER HARNED BY JULIAN M. STURTEVANT WALTER ABRAHAM JACOBS BY ROBERT C. ELDERFIELD ROBERT KHO-SENG LIM BY HORACE W. DAVENPORT ALFRED LEE LOOMIS BY LUIS W. ALVAREZ HOWARD PERCY ROBERTSON BY JESSE L. GREENSTEIN ERNEST HARRY VESTINE BY SCOTT E. FORBUSH WILLIAM BARRY WOOD, JR. BY JAMES G. HIRSCH Henry Eyring (chemist) Henry Eyring (February 20, 1901 – December 26, 1981) was a Mexico-born United States theoretical chemist whose primary contribution was in the study of chemical reaction rates and intermediates. Eyring developed the Absolute Rate Theory or Transition state theory of chemical reactions, connecting the fields of chemistry and physics through atomic theory, quantum theory, and statistical mechanics. Henry Eyring Henry Eyring in 1951 Born February 20, 1901 Colonia Juárez, Chihuahua, Mexico Died December 26, 1981 (aged 80) Salt Lake City, Utah, United States Nationality American Alma mater University of Arizona University of California, Berkeley Known for Transition state theory Spouse(s) Mildred Bennion; Winifred Brennan Children 3, including Henry B. Eyring Awards Wolf Prize in Chemistry (1980) Priestley Medal (1975) Elliott Cresson Medal (1969) Irving Langmuir Award (1968) National Medal of Science (1966) Peter Debye Award (1964) William H. Nichols Medal (1951) Newcomb Cleveland Prize (1932) Scientific career Fields Chemistry Institutions Princeton University University of Utah Doctoral students Keith J. Laidler J O Hirschfelder Walter Kauzmann John Calvin Giddings Other notable students John L. Magee History Eyring, a third-generation member of the Church of Jesus Christ of Latter-day Saints (LDS Church), was reared on a cattle ranch in Colonia Juárez, Chihuahua, a Mormon colony, for the first 11 years of his life. His father, Edward Christian Eyring, practiced plural marriage; Edward married Caroline Romney (1893) and her sister Emma Romney (1903), both daughters of Miles Park Romney, the great-grandfather of Mitt Romney. In July 1912, the Eyrings and about 4,200 other immigrants were driven out of Mexico by violent insurgents during the Mexican Revolution and moved to El Paso, Texas. After living in El Paso for approximately one year, the Eyrings relocated to Pima, Arizona, where he completed high school and showed a special aptitude for mathematics and science. He also studied at Gila Academy in Thatcher, Arizona, now Eastern Arizona College. One of the pillars at the front of the main building still bears his name, along with that of his sister Camilla's husband, Spencer W. Kimball, later president of the LDS Church. Eyring earned a BS in mining engineering at the University of Arizona by working in a copper mine. He then received a fellowship from the US Bureau of Mines fellowship and earned his M.Sc. in metallurgy. Having seen the high rates of accidents in the mines, and breathed sulfur fumes from blast furnaces at a smelter, he chose to do his Ph.D. in chemistry. He pursued and received his doctoral degree in chemistry from the University of California, Berkeley in 1927 for a thesis on A Comparison of the Ionization by, and Stopping Power for, Alpha Particles of Elements and Compounds. Princeton University recruited Eyring as an instructor in 1931. He would continue his work at Princeton until 1946. In 1946 he was offered a position as dean of the graduate school at the University of Utah, with professorships in chemistry and metallurgy. The chemistry building on the University of Utah campus is now named in his honor. A prolific writer, Eyring authored more than 600 scientific articles, ten scientific books, and a few books on the subject of science and religion. He received the Wolf Prize in Chemistry in 1980 and the National Medal of Science in 1966 for developing the Absolute Rate Theory or Transition state theory of chemical reactions, one of the most important developments of 20th-century chemistry. Several other chemists later received the Nobel Prize for work based on the Absolute Rate Theory, and his failure to receive the Nobel was a matter of surprise to many. The Nobel Prize organization admitted that "Strangely, Eyring never received a Nobel Prize"; the Royal Swedish Academy of Sciences apparently did not understand Eyring's theory until it was too late to award him the Nobel. The academy awarded him the Berzelius Medal in 1977 as partial compensation. Sterling M. McMurrin believed Eyring should have received the Nobel Prize but was not awarded it because of his religion. Eyring was elected president of the American Chemical Society in 1963 and the Association for the Advancement of Science in 1965. Awards AAAS Newcomb Cleveland Prize (1932) Bingham Medal (1949) of the Society of Rheology Peter Debye Award in Physical Chemistry (1964) National Medal of Science (1966) Irving Langmuir Award (1967) Linus Pauling Award (1969) Elliott Cresson Medal (1969) from the Franklin Institute Golden Plate Award of the American Academy of Achievement (1974)[15] T. W. Richards Medal (1975) Priestley Medal (1975) Berzelius Medal (1979) Wolf Prize (1980) Member of International Academy of Quantum Molecular Science Member of U.S. National Academy of Sciences Member of the American Philosophical Society Member of the American Academy of Arts and Sciences Scientific publications: books Henry Eyring authored, co-authored, or edited the following books or journals: A generalized theory of plasticity involving the virial theorem The activated complex in chemisorption and catalysis An examination into the origin, possible synthesis, and physical properties of diamonds Annual Review of Physical Chemistry Basic chemical kinetics Deformation Kinetics with Alexander Stephen Krausz Electrochemistry Kinetic evidence of phase structure Modern Chemical Kinetics Non-classical reaction kinetics Physical Chemistry, an Advanced Treatise (1970) Quantum Chemistry Reactions in condensed phases The significance of isotopic reactions in rate theory Significant Liquid Structures Some aspects of catalytic hydrogenation Statistical Mechanics Statistical Mechanics and Dynamics Theoretical Chemistry: Advances and Perspectives. Volume 2 The Theory of Rate Processes in Biology and Medicine with Frank H. Johnson and Betsy Jones Stover Theory of Optical Activity (Monographs on Chemistry series) with D.J. Caldwell Time and Change Valency

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