Difference between revisions of "On a Toroidal Model of the Neutron"
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| − | In the author's previous papers vortical models of electron and proton as a torus were proposed. Torus mass performs two rotational movements, in equatorial and meridional planes. Equatorial rotation defines electric charge and meridional rotation defines its spin. If the vectors of equatorial and meridional rotation constitute right triple, the particle posesses charge of one sign; if they constitute left triple, the opposite sign. The author's other papers tried to clarify the concept of magnetic moment for electron and proton and its connection with generalized Maxwell equations. This paper investigates the same problems for the neutron[[Category:Scientific Paper]] | + | In the author's previous papers vortical models of electron and proton as a torus were proposed. Torus mass performs two rotational movements, in equatorial and meridional planes. Equatorial rotation defines electric charge and meridional rotation defines its spin. If the vectors of equatorial and meridional rotation constitute right triple, the particle posesses charge of one sign; if they constitute left triple, the opposite sign. The author's other papers tried to clarify the concept of magnetic moment for electron and proton and its connection with generalized Maxwell equations. This paper investigates the same problems for the neutron |
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| + | [[Category:Scientific Paper|toroidal model neutron]] | ||
[[Category:Structure]] | [[Category:Structure]] | ||
Revision as of 10:47, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | On a Toroidal Model of the Neutron |
| Author(s) | Jaroslav G Klyushin |
| Keywords | vortical models, neutron |
| Published | 2006 |
| Journal | None |
Abstract
In the author's previous papers vortical models of electron and proton as a torus were proposed. Torus mass performs two rotational movements, in equatorial and meridional planes. Equatorial rotation defines electric charge and meridional rotation defines its spin. If the vectors of equatorial and meridional rotation constitute right triple, the particle posesses charge of one sign; if they constitute left triple, the opposite sign. The author's other papers tried to clarify the concept of magnetic moment for electron and proton and its connection with generalized Maxwell equations. This paper investigates the same problems for the neutron
