Displaying 1 - 5 of total 5 results:
Childhood in New York City; high quality of public schools during Depression; decision at 13 to become physicist; inspirational high school teachers; aptitude for mathematics; undergraduate at Community College of New York (CCNY) and junior year in Paris; graduate of Columbia University; involvement in Manhattan Project with John Dunning from 1942; University of Michigan and University of California, Berkeley after war; wife and children. Postwar transitions: scientists' reaction to the May-Johnson bill; the new physics; Ph.D., 1947.
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.
Born in Texas in 1903; influence of remote, rural environment on his upbringing and early education. Attended Weatherford Junior College until 1923; studies at University of Chicago, B.A. in 1926, M.A. in 1928, and Ph.D. (formally awarded) in 1937. Comments on courses, teachers and fellow students at Chicago, including J. Harlan Bretz and Rollin T. Chamberlin. Summer research at Amerada Petroleum Corporation (Oklahoma), Illinois State Geological Survey, and U.S. Geological Survey (USGS), late 1920s to early 1930s.
This interview was conducted as part of the Archives for the History of Quantum Physics project, which includes tapes and transcripts of oral history interviews conducted with circa 100 atomic and quantum physicists. Subjects discuss their family backgrounds, how they became interested in physics, their educations, people who influenced them, their careers including social influences on the conditions of research, and the state of atomic, nuclear, and quantum physics during the period in which they worked.