GEOMETRIZATION OF PHYSICS: DISCRETE SPACE-TIME GEOMETRY AND RELATIVITY THEORY
2011jsw | Rylov Yu.A.  // Institute for Problems in Mechanics, Russian Academy of Sciences, Moscow, Russia, rylov@ipmnet.ru

Conventional form of the special relativity theory formulates the theory in an unaccomplished form. The dynamic equations of the particle motion are written in accordance with the relativity principles, whereas the particle state is described in the nonrelativistic form. Ignoring the nonrelativistic concept of particle state, one succeeds to construct an uniform formalism for description of deterministic and indeterministic particles, which leads to a necessity of multivariant space-time geometry. The quantum principles are founded by existence of the multivariant space-time geometry and lose the role of prime physical principles. Skeleton conception of the elementary particles realizes relativistic description of the particle state, which appears to be adequate in the case of discrete and multivatiant space-time geometry. The skeleton conception accomplishes transition from nonrelativistic physics to the relativistic one and realizes complete geometrization of physics.

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