| viXra.org > Mathematical Physics > viXra:2206.0122 |
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| viXra.org > Mathematical Physics > viXra:2206.0122 |
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Mathematical Physics |
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Authors: Otto G. Piringer
A simple mathematical interaction function, with the limit value w = e2π/e, derived as a basis for modelling emergent properties of nanoparticles, nanodrops and liquids, has been further developed. A correlation between physical systems of uniform particles and fundamental properties of natural numbers leads to a model, which acts as a bridge between properties of macroscopic systems and fundamental physical constants.The four fundamental coupling constants, and the masses of fundamental elementary particles, including the Higgs and Z bosons, are derived by using this interaction function. A proposal for the mass of the electron neutrino is given. Finally, the nuclear binding interaction is modeled with the interaction function. Only the experimental values of the Planck constant h and the speed of light c are needed for the model.
Comments: 30 Pages.
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[v1] 2022-06-23 09:56:33
[v2] 2022-08-10 12:15:11
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