The possible role of Salam's effect in the fundamental interactions unification
Abstract
The possibility of the fundamental interactions unification arises at the consideration of the field equation of the energy conservation if one takes into account Salam's effect. Such account results in the functional division between gravitational, strong and electromagnetic interactions. The division has the differential nature which is connected with an expansion of the relativistic kinetic energy into McLoren's series. It is shown that the existance of the angular momentum is connected with stationary features of the series. The gauge transformations of the wave function and potential arise due to the influence of the geometrization principle - variations of the non-relativistic kinetic energy have to be equal to variations of the potential energy on absolute value in the connected systems. The numerical quantities of the elementary angular momentum, constant of the gravitational interaction and the ratio of the rest masses of the proton and electron are coordinated with corresponding experimental quantities.
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