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Word: chemist (lookup in dictionary) (lookup stats)
Dates: during 1950-1959
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Usage:

...liberal education in the United States today. Inevitably he has also become the sort of public figure editors cherish for making news no matter what he speaks on. Conant is a familiar figure to periodical readers; to devotees of "Scientific American" he is known as a top-notch organic chemist, to the faithful of the "Boston Pilot" he appears as the arch-enemy of the parochial school system, and to those who buy the "Chicago Tribune" he is a sinster Mother Hen nourishing a flock of "Red fellow-travelers" under the guise of academic freedom...

Author: By Michael J. Halberstam, | Title: James Bryant Conant: The Chemist as President, The President as Defender of the Free University | 9/15/1952 | See Source »

...Chemist Libby's water clock will be based on the same principle as the carbon 14 calendar. Some ten miles high, in the stratosphere, cosmic rays stream in from outer space. With far more force than an atom-smasher, the cosmic rays collide with nitrogen atoms. The crash produces hydrogen, carbon 14 and a minute amount of radioactive tritium. The atoms of cosmic tritium join molecules of water vapor and fall to the earth in snow and rain...

Author: /time Magazine | Title: Science: Water Clock | 8/18/1952 | See Source »

Tritium has a half-life of 12½ years, i.e., half its radioactivity is dissipated in that time. "If our calculations are correct," says Chemist Libby, "then water 12½ years old should be only half as radioactive as new rainwater or snow...

Author: /time Magazine | Title: Science: Water Clock | 8/18/1952 | See Source »

When he has collected enough samples to calibrate his time clock, Chemist Libby will be able to answer some tough questions. Example: Is it true, as oceanographers believe, that there is no mixing of new water on the sea's surface and "old" brine below 700 feet...

Author: /time Magazine | Title: Science: Water Clock | 8/18/1952 | See Source »

...Chemist Sanger worked with crystalline insulin, a comparatively simple protein. First he broke the large molecules by oxidation into two fragments, one containing 21 amino-acid building blocks, the other 30. Then by other methods (e.g., hydrolysis), he broke the two parts down until he had fragments that contained only a few amino acids each. These were compounds familiar to biochemists. Sanger identified them by paper chromatography,† and the first and easiest part of his job was done...

Author: /time Magazine | Title: Science: Protein Puzzle | 8/4/1952 | See Source »

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