The Angular Momenta Dipole Moments and Gyromagnetic Ratios of the Electron and the Proton

Abstract: We had previously obtained analytical formulae for the dipole moments and angular momenta of rotating spherical bodies. The resulting formulae were applied to the Sun, the star 78 Virginis and the Earth. The agreement of the theoretical formulae with the actual real situations is indeed remarkable. In this note we apply the same formulae to the electron and the proton, using the classical values of the radii, so no quantum mechanical treatment is considered.

“…In particular, the ratio P J has the value 15 8.61640674 10 G c − = × in both the case of the neutron and in the case of the muon. We also note that P J has the same value as in the case of the electron and the proton [2] and as in the case of other rotating spherical bodies [1]. It is indeed remarkable that the ratio P J is first developed by us, to deal with rotating spherical bodies of arbitrary masses and radii and we apply it to the case of rotating stars.…”

“…The purpose of this note is to derive analytical formulae for the dipole moments, angular momenta and gyromagnetic ratios of the neutron and the muon. The background to this work is fully explained in reference [1] and a parallel paper on the electron and neutron [2] follows the same methods as presented here.…”

The Angular Momenta, Dipole Moments and Gyromagnetic Ratios of the Neutron and the Muon

“…In particular, the ratio P J has the value 15 8.61640674 10 G c − = × in both the case of the neutron and in the case of the muon. We also note that P J has the same value as in the case of the electron and the proton [2] and as in the case of other rotating spherical bodies [1]. It is indeed remarkable that the ratio P J is first developed by us, to deal with rotating spherical bodies of arbitrary masses and radii and we apply it to the case of rotating stars.…”

“…The purpose of this note is to derive analytical formulae for the dipole moments, angular momenta and gyromagnetic ratios of the neutron and the muon. The background to this work is fully explained in reference [1] and a parallel paper on the electron and neutron [2] follows the same methods as presented here.…”

The Angular Momenta, Dipole Moments and Gyromagnetic Ratios of the Neutron and the Muon