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Article Dans Une Revue The General Science Journal Année : 2016

The Problem of Particle Motion in the Schwarzschild Field: Critical Methodological Analysis, Exact Numerical Solution, and the Alternative

Kirill Vankov

Résumé

The problem of Schwarzschild dynamics is of fundamental importance in Modern Physics since the Schwarzschild solution is considered the exact one to the Einstein field equation and it is directly testable, in theory. It is widely believed that the solution is flawless and successfully passed the observational test (a planetary perihelion advance prediction) what eventually put General Relativity to the rank of the only true relativistic theory of gravitational field. In this work, we critically analyze the GR prediction methodology and investigate physical meaningfulness of the solution, particularly, in view of relationship of proper versus coordinate time variables and their connections with a relativistic mass and energy concepts. The overall conclusion is made that the GR dynamic equation for point particle motion from Schwarzschild metric is prone to inner contradictions inherited from the GR physical foundations. In particular, its exterior solution admits superluminal motion. Strictly speaking, it cannot be used for a treatment of observational data. Alternative approach based on Special Relativity Dynamics with a field-dependent proper mass concept is presented.
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Dates et versions

hal-01571145 , version 1 (01-08-2017)

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  • HAL Id : hal-01571145 , version 1

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Kirill Vankov. The Problem of Particle Motion in the Schwarzschild Field: Critical Methodological Analysis, Exact Numerical Solution, and the Alternative. The General Science Journal, 2016. ⟨hal-01571145⟩
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