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Anderson talks almost exclusively about his work during the thirties with particles of high energy involved in nuclear reactions. He covers in detail his discovery of the positive electron, his pair production work with gamma rays, his expedition to Pike’s Peak with Neddermeyer and their discovery of the mesotron. He mentions that it was in his speech accepting the Nobel Prize in 1936 that he first mentioned the possibility of negative and positive particles of intermediate mass.
Early life and education; research on spectroscopy with Robert A. Millikan at University of Chicago and Caltech; early teaching career at Caltech; work on forbidden lines, 200-inch telescope project; visitors to Caltech during the 1930s include Albert Einstein and Arnold Sommerfeld; effects of the Depression and World War II on astronomy; postwar reorganization, staff and funding at Mt. Wilson and Palomar Observatories; Edwin P.
Family background and early education; early science interests (telegraph and radio transmission), wins American Chemistry Society Contest in high school. Caltech for both undergraduate and graduate studies, 1926-1934, comments on courses, teachers (Richard C. Tolman, Paul Epstein) and fellow students (Chet Carlson, the inventor of Xerox). Joins Charles Lauritsen's group as graduate student (nuclear physics), gets involved in research projects. J.
Family background; grows up in California; early interest in electronics. Undergraduate and graduate studies at Caltech. Strong interest in history of science as undergraduate. Ph.D. in physics, 1932. University of California at Berkeley, 1932-1934. MIT from 1934; founder of the Radioactivity Center. Starts first course designated "nuclear physics," January 1935. Strong interest in study of radium poisoning; radium tolerance in humans, cancer research. World War II work, postwar work; establishment of Laboratory for Nuclear Science and Engineering.
Work at Caltech during the 1930s; when the Cockcroft-Walton paper appeared in 1932, he shifted from X-ray work to nuclear work. Development of ion sources and detection equipment, the building of a second tube at the High Voltage Laboratory, old tube is used in cancer therapy. Begins a systematic study of energy levels in light nuclei after discovery of artificial radioactivity. Interest in nuclear physics in Caltech. Nuclear work during the war, and the increase in level of support by Office of Naval Research (ONR) after the war.
Childhood and early education, Hollywood High School, graduates in chemistry from Caltech, 1924; to University of California, Berkeley (Gilbert N. Lewis), 1924; postdoc at Berkeley for 1Œ years working on statistical mechanics. To Göttingen (James Franck), 1929; marries Maria Goeppert; return to Göttingen, 1932, works with Born on lattice energy calculations. Comments on work done with Maria Goeppert. Discussion of the application of the new quantum theory to solids.
<p>Then, the project finally got authorized in 1961 — but again after a rather amusing set of coincidences. At that time the Stanford project was sort of known as the Republican project because Eisenhower had proposed it to a Democratic Congress. At that time there was a project that the Democrats wanted in Congress which the Republican administration did not want. This was for the Hanford Reactor to generate power into the electrical net, because it was considered to be socialized electricity by the Republicans, to have power generated by a production reactor.