New Physical Theory of Gravity

Abstract

Viktar Yatskevich

This paper proposes a phenomenological, physically motivated interpretation of gravitation aimed at addressing conceptual gaps related to physical mechanism, causality, and microscopic origin of gravitational interaction. While contemporary theories of gravity, including general relativity, provide mathematically consistent and empirically successful descriptions, they do not explicitly specify the physical processes underlying gravitational interaction.

The proposed framework is based on established electromagnetic and structural properties of matter on microscopic and macroscopic scales. Gravitational interaction is interpreted as a manifestation of collective electrodynamic processes occurring within matter, associated with time-dependent electric and magnetic field configurations generated by charged constituents. The approach is not intended to replace geometric descriptions of gravity, but to complement them by introducing an explicit physical interpretation consistent with known properties of matter and interactions.

The work is conceptual in scope and focuses on physical interpretation rather than on the development of a new mathematical formalism. It aims to provide a physically transparent perspective on gravity that may serve as a foundation for further theoretical refinement and experimental investigation.

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