Authors: Ulrich E. Bruchholz, Horst Eckardt
It is demonstrated how to obtain quantities of free particles and masses of nuclei from known equations of the electrovacuum around the particle. A sampling method is used based on a higher number of numerical tests. The single computation ends at a geometric limit, which involves eigenvalues. These eigenvalues, significantly correlating with known particle values (mass, spin, electric charge, magnetic moment) and also masses of nuclei, are detected. This allows predicting particle quantities being unknown up to date. In particular, possible masses of neutrinos are predicted. Obtained values are 0.068eV, 0.095eV, 0.155eV, 0.25eV, 0.31eV, 0.39eV, 0.56eV, 1.63eV, 2.88eV, 5.7eV. The algorithm is explained to some detail.
Comments: 15 Pages. Physicists and mathematicians believe that the numerical method is erroneous, despite correct results. But the diverging behaviour of it belongs to nature, like the chaos.
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[v1] 2015-04-26 14:25:33
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