A Rule for the Equilibrium of Forces in the Hermitian Theory of Relativity

TL;DR

This paper derives conditions for the positions of singularities in the Hermitian theory of relativity, suggesting it offers a unified framework for gravitational, color, and electromagnetic forces.

Contribution

It introduces a no-jump rule that constrains singularity behavior, providing new insights into force unification within the Hermitian theory of relativity.

Findings

Conditions for singularity positions derived

Hermitian theory suggests force unification

Provides a rule for equilibrium of forces

Abstract

When the behaviour of the singularities, which are used to represent masses, charges or currents in exact solutions to the field equations of the Hermitian theory of relativity, is restricted by a no-jump rule, conditions are obtained, which determine the relative positions of masses, charges and currents. Due to these conditions the Hermitian theory of relativity appears to provide a unified description of gravitational, colour and electromagnetic forces.