Word: seconds
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Dates: during 1970-1979
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PROVIDENCE, R.I.--A Brown rally for 21 points in five minutes to open the second half dashed hopes of a Harvard upset and sent the Crimson to a 23-14 defeat Saturday on the unplayable, unattractive and unspeakable turf of Brown Stadium...
...WEATHER the crooked linoleum corridors of the second floor of the Jefferson Physics Laboratory, you come upon an unassuming, airy, office, distinguishable from all others only by its lazily opened door. Above the nameplate--"Prof. S. Glashow"--somebody's placed a gun control sticker, and above that a cockeyed "congratulations"--modest. as if in celebration of a birthday...
...Cornell. Although on graduation one went West and one went East, they retained common academic interests, publishing papers from California and Copenhagen on the same topics. They reunited in 1973, when Weinberg left MIT to join Glashow, and the rest of Harvard's celebrated physics Department on the second floor of Jefferson...
...understand these contributions, you have to hark back as far as the beginning of the twentieth century, to the year Albert Einstein published his theory of general relativity. This momentous theory ggested briefly two important things: first, that matter in space, and space itself, are intimately connected; and second, that time should constitute an integral, fourth dimension, unlike in Newtonian physics where it is an independent parameter. Einstein proposed that the future of physics lay in the reduction of all of its laws to these geometrical, "space-time," propositions...
...unification of the weak and the electromagnetic forces remained the most promising avenue. "There were two major problems," Glashow recollects, "the mathematical problem, and the 'finiteness' problem. I solved the first, and Steve solved the second." The one clue sprung from the fact that the amount, or quantum of energy, exchanged in the weak interactions, the so-called "intermediate vector boson," was found to have the same value as the quantum of energy exchanged in electromagnetic interaction. The scales were obviously vastly different, as were the distances over which the two forces act, but this mathematical parallel nonetheless represented...