General relativity extended to non-Riemannian space-time geometry

Details General relativity extended to non-Riemannian space-time geometry General relativity extended to non-Riemannian space-time geometry

2009-10-19

arxiv.org/abs/0910.3582v7

Physics

General Physics

28 pages, 0 figures, The new version is more transparent

Scientific paper

The gravitation equations of the general relativity, written for Riemannian space-time geometry, are extended to the case of arbitrary (non-Riemannian) space-time geometry. The obtained equations are written in terms of the world function in the coordinateless form. These equations determine directly the world function, (but not only the metric tensor). As a result the space-time geometry appears to be non-Rieamannian. Invariant form of the obtained equations admits one to exclude influence of the coordinate system on solutions of dynamic equations. Anybody, who trusts in the general relativity, is to accept the extended general relativity, because the extended theory does not use any new hypotheses. It corrects only inconsequences and restrictions of the conventional conception of general relativity. The extended general relativity predicts an induced antigravitation, which eliminates existence of black holes.

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