Gravitational Mass, Its Mechanics - What It Is; How It Operates

TL;DR

This paper offers a new comprehensive analysis of gravitational mass, explaining its nature, how it manifests in particles, and how it aligns with inertial mass, without relying on quantum gravity theories.

Contribution

It introduces a novel framework for understanding gravitational mass and its mechanics, linking it directly to particle behavior and classical physics principles.

Findings

Gravitational mass appears in particles as described.

Newtonian gravity emerges from this analysis.

Inertial and gravitational masses are shown to be identical.

Abstract

The earlier paper, Inertial Mass, Its Mechanics - What It Is; How It Operates, developed the mechanics of inertial mass. The present paper is for the purpose of equivalently developing gravitation. The behavior of gravitation is well known, as described by Newton's Law of Gravitation. But just what gravitational mass is, how gravitational behavior comes about, what in material reality produces the effects of gravitational mass, has been little understood. The only extant hypotheses involve the unsuccessful efforts to develop "quantum gravitation" and to tie it into the rest of quantum mechanics, and the equally failed attempts to detect "gravitons" and "gravitational waves" in spite of very substantial efforts. From a starting point of only the limitation on the speed of light, the necessity of conservation, and the impossibility of an infinity in material reality, the present paper presents a new and comprehensive analysis of the phenomenon gravitational mass: - how it appears in particles, - how the Newtonian gravitational behavior arises from that, and - how the values of inertial mass and gravitational mass are identical, or, in other words, the mechanics of gravitational mass and gravitation.