 Born, Max

born Dec. 11, 1882, Breslau, Ger.died Jan. 5, 1970, Göttingen, W.Ger.German physicist.He taught theoretical physics at the University of Göttingen from 1921 to 1933, when he fled to Britain. There he taught principally at the University of Edinburgh (1936–53). In 1921 he gave a very precise definition of quantity of heat, the most satisfactory mathematical statement of the first law of thermodynamics. In 1926 he collaborated with his student Werner Heisenberg to develop the mathematical formulation that would adequately describe Heisenberg's first laws of a new quantum theory. He later showed, in the work for which he is perhaps best known, that the solution of the Schrödinger equation has a statistical meaning of physical significance. His later work concerned the scattering of atomic particles and calculations dealing with the electronic structures of molecules. In 1954 he shared a Nobel Prize for Physics with Walther Bothe (1891–1957).Max BornBy courtesy of Godfrey Argent; photograph, Walter Stoneman
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▪ German physicistborn Dec. 11, 1882, Breslau, Ger. [now Wrocław, Pol.]died Jan. 5, 1970, Göttingen, W.Ger.German physicist who shared the Nobel Prize for Physics in 1954 with Walther Bothe (Bothe, Walther) for his probabilistic interpretation of quantum mechanics.Born came from an uppermiddleclass, assimilated, Jewish family. At first he was considered too frail to attend public school, so he was tutored at home before being allowed to attend the König Wilhelm Gymnasium in Breslau. Thereafter he continued his studies in physics and mathematics at universities in Breslau, Heidelberg, Zürich, and Göttingen. At the University of Göttingen he wrote his dissertation (1906), on the stability of elastic wires and tapes, under the direction of the mathematician Felix Klein (Klein, Felix), for which he was awarded a doctorate in 1907.After brief service in the army and a stay at the University of Cambridge, where he worked with physicists Joseph Larmor (Larmor, Sir Joseph) and J.J. Thomson (Thomson, Sir J.J.), Born returned to Breslau for the academic year 1908–09 and began an extensive study of Albert Einstein (Einstein, Albert)'s theory of special relativity. On the strength of his papers in this field, Born was invited back to Göttingen as an assistant to the mathematical physicist Hermann Minkowski (Minkowski, Hermann). In 1912 Born met Hedwig Ehrenberg, whom he married a year later. Three children, two girls and a boy, were born from the union. It was a troubled relationship, and Born and his wife often lived apart.In 1915 Born accepted a professorship to assist physicist Max Planck (Planck, Max) at the University of Berlin, but World War I intervened and he was drafted into the German army. Nonetheless, while an officer in the army, he found time to publish his first book, Dynamik der Kristallgitter (1915; Dynamics of Crystal Lattices).In 1919 Born was appointed to a full professorship at the University of Frankfurt am Main, and in 1921 he accepted the position of professor of theoretical physics at the University of Göttingen. James Franck had been appointed professor of experimental physics at Göttingen the previous year. The two of them made the University of Göttingen (Göttingen, University of) one of the most important centres for the study of atomic and molecular phenomena. A measure of Born's influence can be gauged by the students and assistants who came to work with him—among them, Wolfgang Pauli (Pauli, Wolfgang), Werner Heisenberg (Heisenberg, Werner), Pascual Jordan (Jordan, Pascual), Enrico Fermi (Fermi, Enrico), Fritz London (London, Fritz Wolfgang), P.A.M. Dirac (Dirac, P.A.M.), Victor Weisskopf, J. Robert Oppenheimer (Oppenheimer, J. Robert), Walter Heitler, and Maria GoeppertMayer (Mayer, Maria Goeppert).The Göttingen years were Born's most creative and seminal. In 1912 Born and Hungarian engineer Theodore von Karman (Kármán, Theodore von) formulated the dynamics of a crystal lattice, which incorporated the symmetry properties of the lattice, allowed the imposition of quantum rules, and permitted thermal properties of the crystal to be calculated. This work was elaborated when Born was in Göttingen, and it formed the basis of the modern theory of lattice dynamics.In 1925 Heisenberg gave Born a copy of the manuscript of his first paper on quantum mechanics, and Born immediately recognized that the mathematical entities with which Heisenberg had represented the observable physical quantities of a particle—such as its position, momentum, and energy—were matrices (matrix). Joined by Heisenberg and Jordan, Born formulated all the essential aspects of quantum mechanics in its matrix version. A short time later, Erwin Schrödinger (Schrödinger, Erwin) formulated a version of quantum mechanics based on his wave equation. It was soon proved that the two formulations were mathematically equivalent. What remained unclear was the meaning of the wave function that appeared in Schrödinger's equation. In 1926 Born submitted two papers in which he formulated the quantum mechanical description of collision processes and found that in the case of the scattering of a particle by a potential, the wave function at a particular spatiotemporal location should be interpreted as the probability amplitude of finding the particle at that specific spacetime point. In 1954 he was awarded the Nobel Prize for this work.Born remained at Göttingen until April 1933, when all Jews were dismissed from their academic posts in Germany. Born and his family went to England, where he accepted a temporary lectureship at Cambridge. In 1936 he was appointed Tait Professor of Natural Philosophy at the University of Edinburgh. He became a British citizen in 1939 and remained at Edinburgh until his retirement in 1953. The next year, he and his wife moved to Bad Pyrmont, a small spa town near Göttingen.Silvan SchweberAdditional ReadingMax Born, My Life: Recollections of a Nobel Laureate (1978), is a highly readable autobiography. Albert Einstein and Max Born, The BornEinstein Letters: Friendship, Politics, and Physics in Uncertain Times (2005), is a fascinating look at the correspondents' wide range of interests. Nancy Thorndike Greenspan, The End of the Certain World: The Life and Science of Max Born (2005), emphasizes the dramatic events in Born's life rather than the science. Jeremy Bernstein, “Max Born and the quantum theory,” American Journal of Physics, 73(11): 999–1008, examines Born's major contributions to physics.* * *
Universalium. 2010.
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BORN, MAX — (1882–1970), German physicist and Nobel Prize winner. A son of the anatomist Gustav Born, he was born in Breslau and lectured on physics in Berlin (1915), Frankfurt (1919), and Goettingen (1921). Although he had dissociated himself from the… … Encyclopedia of Judaism
Born,Max — Born (bôrn), Max. 1882 1970. German born physicist. He shared a 1954 Nobel Prize for his pioneering work in quantum mechanics. * * * … Universalium
Born, Max — (1882 1970) physicist; a key player in the development of quantum mechanics. A native of Breslau (now Poland s Wroclaw), he began university studies in his home city. Moving to Gottingen in 1904 to study with David Hilbert, he took a doctorate … Historical dictionary of Weimar Republik
Born , Max — (1882–1970) German physicist Born was the son of an embryologist, a professor of anatomy at the University of Breslau (now Wrocław) in Poland. He was educated at the university in his native city of Breslau, and at the universities of Heidelberg … Scientists
Born, Max — ► (1882 1970) Físico alemán. Desarrolló los fundamentos de la mecánica cuántica y la interpretación probabilística de la función de ondas. Fue premio Nobel de Física en 1954 por sus trabajos en mecánica cuántica. * * * (11 dic. 1882, Breslau,… … Enciclopedia Universal
Born, Max — (1882–1970) German physicist and Nobel laureate, 1954. The son of an anatomist, Born grew up in Breslau and lectured on physics in Berlin, Frankfurt and Goettingen. Though not a professing Jew, he was dismissed from Goettingen in 1933. He went … Who’s Who in Jewish History after the period of the Old Testament
Born, Max — (1882 1970) German physicist. He was born in Breslau, and lectured on physics in Berlin, Frankfurt and Gottingen. He later moved to Britain and taught at Edinburgh University. On his retirement, he returned to Germany. He played a major role… … Dictionary of Jewish Biography
Born — Max … Scientists
Born — Born, Max … Enciclopedia Universal
Max Born — (1882 1970) Born 11 December 1882(1882 12 11) … Wikipedia