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A strictly geometric interpretation of gravitation in general relativity
Foundations of Physics 3 (1):45-51 (1973)
Abstract
A geometric interpretation of gravitation is given using general relativity. The law of gravitation is taken in the formR 44=0, whereR 44is the component of the contracted Riemann-Christoffel (Ricci) tensor representing the curvature of time. The remaining curvature components of the contracted Riemann-Christoffel tensor may or may not vanish. All that is required in addition toR 44=0 is that the Gaussian curvatureR be nowhere infinite. The conditionR 44=0 yields a nonlinear wave equation. One of the static degenerate solutions represents the gravitational field surrounding a static gravitational point singularity. It is found that for this solution, the three famous predictions of general relativity are obtained in the weak-field approximation. In addition, it is found that there is a correction to the Kepler period of revolution for an orbitMy notes
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Citations of this work
Impossibility of collapse under the law of gravitationR 44=0.J. P. Kobus - 1975 - Foundations of Physics 5 (4):649-654.
Gravitational radiation in spherical coordinates.J. P. Kobus - 1974 - Foundations of Physics 4 (2):291-297.
References found in this work
A simple model for nuclear forces which exhibits bound states.J. P. Kobus & M. Z. Nashed - 1971 - Foundations of Physics 1 (4):329-337.
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