Towards a Deeper Understanding of General Relativity

TL;DR

This paper proposes that fundamental constants vary with gravitational potential, causing clock slowing and rod elongation, offering new insights into black hole geometry and cosmology through a telemetric measurement system.

Contribution

It introduces a novel theory where atomic constants depend on gravity, explaining clock slowing and rod elongation, and reinterprets black hole and universe structures.

Findings

Rest mass reduction causes clock slowing.

Gravitational elongation of measuring rods is predicted.

Telemetric measurements alter black hole and cosmological models.

Abstract

Standard treatments of general relativity accept the gravitational slowing of clocks as a primary phenomenon, requiring no further analysis as to cause. Rejecting this attitude, I argue that one or more of the fundamental "constants" governing the quantum mechanics of atoms must depend upon position in a gravitational field. A simple relationship governing the possible dependencies of e, h, c and m is deduced, and arguments in favor of the choice of the electron rest mass, m, are presented. The reduction of rest mass is thus taken to be the sole cause of clock slowing. Importantly, this dependency implies another effect, heretofore unsuspected, namely, the gravitational elongation of measuring rods. An alternate ("telemetric") system of measurement is introduced, leading to a metric that is conformally related to the usual proper metric. In terms of the new system, many otherwise puzzling phenomena may be simply understood. In particular,the geometry of the Schwarzschild space as described by the telemetric system differs profoundly from that described by proper measurments, leading to a very different understanding of the structure of black holes. The theory is extended to cosmology,leading to a remarkable alternate view of the structure and history of the universe.