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The Nobel Foundation presents a biographical sketch of American physicist Carl David Anderson (1905-1991). Anderson was awarded, along with Victor Franz Hess, the 1936 Nobel prize in physics for his discovery of the positron. The foundation highlights Anderson's education, his research, his work, and his accomplishments.
In 1936, at age 31, Carl David Anderson became the second youngest Nobel laureate for his discovery of antimatter when he observed positrons in a cloud chamber.He is responsible for developing rocket power weapons that were used in World War II.He was born in New York City in 1905 and was educated in Los Angeles. He served for many years as a physics professor at California Institute of Technology. Prior to Oppenheimer, Anderson was offered the job of heading the Los Alamos atomic bomb program but could not assume the role because of family obligations.He was a pioneer in studying cosmic rays at high altitudes, first atop Pike's Peak, then after the war in a specially equipped B-29.
Autographed photograph handwritten note envelope America Carl David Anderson (3 September 1905 - 11 January 1991) was an American physicist. He is best known for his discovery of the positron in 1932, an achievement for which he received the 1936 Nobel Prize in Physics, and of the muon in 1936.
Biographic Memoirs: Volume 73 contains the biographies of deceased members of the National Academy of Sciences and bibliographies of their published works. Each biographical essay was written by a member of the Academy familiar with the professional career of the deceased. For historical and bibliographical purposes, these volumes are worth returning to time and again.
American National Biography is the first new comprehensive biographical dicionary focused on American history to be published in seventy years. Produced under the auspices of the American Council of Learned Societies, the ANB contains over 17,500 profiles on historical figures written by an expert in the field and completed with a bibliography. The scope of the work is enormous--from the earlest recorded European explorations to the very recent past.
Radioactivity: Introduction and History provides an introduction to radioactivity from natural and artificial sources on earth and radiation of cosmic origins. This book answers many questions for the student, teacher, and practitioner as to the origins, properties, detection and measurement, and applications of radioactivity. Written at a level that most students and teachers can appreciate, it includes many calculations that students and teachers may use in class work. Radioactivity: Introduction and History also serves as a refresher for experienced practitioners who use radioactive sources in his or her field of work. Also included are historical accounts of the lives and major achievements of many famous pioneers and Nobel Laureates who have contributed to our knowledge of the science of radioactivity. * Provides entry-level overview of every form of radioactivity including natural and artificial sources, and radiation of cosmic origin. * Includes many solved problems to practical questions concerning nuclear radiation and its interaction with matter * Historical accounts of the major achievements of pioneers and Nobel Laureates, who have contributed to our current knowledge of radioactivity
Physics presents Nobel Lectures on physics from the period of 1922 to 1941. This book is organized into 18 parts encompassing 36 chapters that cover various Nobel physics subjects. The first parts explore the advances in understanding the atom structure, experimental studies of electrons, X-ray spectra of the atomic structure, kinetic energy of free electrons, and discontinuous structure of matter. These topics are followed by discussions on the laws governing the thermionic phenomena, wave nature of electron, light molecular scattering, the development of quantum mechanics, properties of neutrons, and the properties and production of positrons. The remaining parts are devoted to electronic waves, neutron's artificial radioactivity, and the evolution of cyclotron. Physicists will find this book invaluable.