| 摘要 |
The observation of a proportional relationship between the rest masses of all three families of matter led to a threefold extension of the periodic table of the elements, from the first family to the other two, and to the discovery of an energy well of fundamental particles (quarksaeptons) that is centered on the Z° boson, similar to that of binding energies centered on iron 56. This led to an explanation for hadron perpetuity, and to the discovery of the mechanism that governs the transformation of hadrons of lower mass (protons/neutrons) to those of higher mass (omega minus, et al). This, in turn, led to conclusions about the role of weak bosons in matter/antimatter transformations, and to the controversial proposition that entropy, a universal condition of the expanding universe, is transposed to its antithetical counterpart, antropy, in the contracting environments of a neutron stellar core or black hole.
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