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Anderson, Carl

Anderson, Carl. One FDA investigator s view. UC Berkeley Extension Drug Development Course, San Francisco, CA, Fall 1999. [Pg.3074]

David H. Anderson, Carl R. Evenson IV, Todd H. Harkins, Douglas S. Jack, Richard Mackay, and Michael V. Mundschan... [Pg.155]

Alijah Alexander, 262 Allen Michael R, 385 Amos A. Terry, 835 Anderson Carl David, 126, 327... [Pg.1021]

Abragam Anatole 668 Abramovitz Milton 481 Adamowicz Ludwik 513, 573 Adams John E. 765, 784, 790 Adleman Leonard M. 851, 878, 879,880 Aharonov Yakir 968 Ahlrichs Reinhart 356, 532 Albrecht Andreas A. 395 Alder Berni Julian 278, 825 Alderton Mark 702,1019 Alexander Steven 269 Alijah Alexander 222, 272, 273 Allen Michael P. 322 Allinger Norman L. 286,291 Amos A. Terry 716 Anderson Carl David 14,113,268 Andre Jean-Marie 90, 140, 374, 431, 465, 487,496, 642, 644 Andre Marie-Claude 90,140 Andzelm Jan 602, 612 Anfinsen Christian 294 Aquilanti Vincenzo 742 Arndt Markus 43 Arrhenius Svante August 832 Aspect Alain 3,14,46,53,54 Atkins Peter William 70,381,920 Auger Pierre Victor 270 van der Avoird Ad 284,717 Axilrod Benjamin M. 565, 741, 758, 761 Ayers Paul W. 395... [Pg.1065]

Cogdill, R.P., A. Anderson Carl, and K. Drennen James, in, Process analytical technology case study, part III Calibration monitoring and timsfei. AAPSPharmSciTech [electronic resource], 6 E284—E297... [Pg.611]

The American physicist Carl Anderson received his Ph.D. from the California Institute of Technology in 1930, after which he immediately set to work studying cosmic rays. Cosmic rays are not a kind of radiation like gamma rays. They are rapidly moving electrons and... [Pg.207]

Seymour Abrahamson S. James Adelstein Peter R. Almond Larry L. Anderson Lynn R. Anspaugh John W. Baum Harold L. Beck Michael A, Bender B. Gordon Blaylock Bruce B. Boecker John D. Boice. Jr AndrE Bouville Leslie A. Braby John W. Brand Robert L. Brent A. Bertrand Brill Antone L. Brooks Paul L. Carson James E, Cijiaver J. Donald Cossairt Fred T. Cross Gail de Planqite Sabah Donaldson William P. Dornsife Carl H. Durney... [Pg.44]

Three things occurred in American laboratories in 1932 the positron was discovered by Carl Anderson at the California Institute of Technology, deuterium was discovered by Harold Urey at Columbia University, and Ernest Lawrence at the University of CaHfornia, Berkeley extended the energy of the cyclotron to the 1 milHon volt level. Thus, the frontier of physics was shifting to American laboratories. Much of the nuclear research originated from those universities where the boys, who had learned the new physics and had assimilated the spirit of world-class research in Europe, had come home to lead their own research groups. [Pg.128]

Positronium was the first exotic atom to be observed. The positron was predicted from Dirac s 1928 work in which he united the new quantum mechanics with relativity, and it was first observed by Carl Anderson in 1932. Soon thereafter, in 1934, Sq epan Mohorovicic predicted that an atom, consisting of a positron and an electron, could be observed. It wasn t until 1951, however, that positronium was created and observed by Martin Deutsch of the Massachusetts Institute of Technology. Deutsch accomplished this hy slovnng positrons emitted in the decay of an isotope of sodium until the positrons captured electrons from the surrounding gas. [Pg.244]

Carl D. Anderson, The Positive Electron, Physical Review 43, 491-494 (1933). The positron originated in Earth s atmosphere. [Pg.267]

The next very simple particle to be discovered was the positron, found in 1932 by Professor Carl Anderson of the California Institute of Technology. The positrons were found among the particles produced by the interaction of cosmic rays with matter. They seem to be identical with electrons except that their charge is 4- instead of Their span of life as free particles is very short, usually less than a microsecond (i X lO"" sec). [Pg.670]

Mesons were discovered in 1936, by the American physicists Carl Anderson and Seth Neddermeyer at the California Institute of Technology. They are produced by interaction of cosmic ra s with matter. They are either positive or negative in charge neutral mesons may also exist. Mesons are known with masses about 216 and 285 times that of the electron (called fi mesons and tt mesons, respectively), and there is evidence also for the existence of still heavier mesons (with mass about 900 times that of the electron). Mesons have very short lives they probably undergo decomposition into a positron or electron and two neutrinos. [Pg.671]

Caltech had three Nobel Prize winners in 1941 Robert A. Millikan and Carl D. Anderson in physics, and Thomas Hunt Morgan in biology. [Pg.21]

Jerome I. Friedman, Henry W. Kendall, Richard E. Taylor 1936 Victor F. Hess, Carl D. Anderson... [Pg.122]

In 1931, when a British physicist, Paul Dirac, was developing quantum mechanics,bis equations showed the probable existence of an elementary particle, called a positron, having the same mass as an electron but with a positive rather than a negative charge. The existence of positrons was subsequently proven, when they were detected in cosmic radiation by Nobel Prize winner, Carl Anderson. [Pg.67]

The anti-electron was indeed detected in 1932 by the American physicist Carl David Anderson (1905- ), in his study of cosmic rays. When... [Pg.242]

They debated the structure of the proton. Other topics they discussed may have seemed more far-reaching at the time. None would prove to be. On August 2, 1932, working with a carefully prepared cloud chamber, an American experimentalist at Caltech named Carl Anderson had discovered a new particle in a shower of cosmic rays. The particle was an electron with a positive instead of a negative charge, a positron, the first indication that the universe consists not only of matter but of antimatter as well. (Its discovery earned Anderson the 1936 Nobel Prize.) Physicists everywhere im-... [Pg.199]

One of Dirac s important results was the observation that his relativistic wave equation is satisfied not only by the electron, but also by a mysterious unknown particle, the positive electron (which become known as the positron). This antimatter hypothesis was confirmed by Carl Anderson, who found the positron experimentally. [Pg.15]

Carl David Anderson (1905-1991) was an American physicist and a professor at the Pasadena Institute of Technology. In 1932, Anderson discovered the positron when studying cosmic rays (using the cloud chamber). He received for this the Nobel Prize in 1936. He was also a co-discoverer of the muon. [Pg.126]

See other pages where Anderson, Carl is mentioned: [Pg.265]    [Pg.265]    [Pg.563]    [Pg.248]    [Pg.739]    [Pg.126]    [Pg.575]    [Pg.227]    [Pg.93]    [Pg.227]    [Pg.856]    [Pg.21]    [Pg.771]    [Pg.394]    [Pg.437]    [Pg.307]    [Pg.408]    [Pg.15]    [Pg.126]    [Pg.1044]    [Pg.23]    [Pg.539]   
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See also in sourсe #XX -- [ Pg.199 ]

See also in sourсe #XX -- [ Pg.9 ]



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