Authors: Jonathan Deutsch
ABSTRACT We start by realizing that Newton’s classical gravitational constant, G, and the quantum gravitational-structure constant (using h instead of h-bar for accuracy) must be made equivalent. Doing this assigns specific numerical values for the units: gram (gm), centimeter (cm) and second (sec) - - something physics considers absolutely impossible to do! We hypothesize 1 neutrino to be exactly 1 gm X 1 cm/1 sec - - a momentum - - which amounts to approximately 10-10 sec - - a reasonable quantum time interval. The neutrino is thus hypothesized to be A PARTICLE OF TIME! Time is physical. We hypothesize the neutrino mass to be 1 gm X 1 cm/time (sec)/the same amount of time (sec) - - specifically, exactly gmcm/sec2 - - a force (in enormous numbers) - - =(cm/sec2)gm - - a mass! This turns out to be approximately 10-34 gm. That is a very testable result, at least in approximation. Initial estimates are very favorable to our hypothesis, but delicate, precise experiments currently underway and/or future experiments will either confirm or disprove our hypothesis.
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[v1] 2019-03-08 21:17:07
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