| viXra.org > Relativity and Cosmology > viXra:2512.0028 |
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| viXra.org > Relativity and Cosmology > viXra:2512.0028 |
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Relativity and Cosmology |
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Authors: Vakhtang MchedliSvili
In standard relativistic physics, the divergence of energy density and inertial mass as velocity approaches the speed of light (v → c) represents a classical singularity, indicating the asymptotic limitation of the mathematical model. In this paper, we introduce the "Principle of Inertial Saturation" (PIS) as a phenomenological mechanism that regularizes the Lorentz factor via an effective vacuum parameter (sigma). The model is based on a generalized Mach's principle, where the local inertial limit is dynamically determined by the gravitational potential. This version includes an Independent AI Technical Validation Report (Appendix A) verifying the mathematical consistency of the PIS model and its specific predictions for lunar energy saturation limits.
Comments: 9 Pages. Updated version with an independent technical review and mathematical validation report (ID: IS-PIS-2026-VM-001-Claude). Added specific quantitative predictions for the Moon and ISS.
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[v1] 2025-12-06 13:49:33
[v2] 2026-01-04 12:46:49
Unique-IP document downloads: 204 times
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