Biquaternionic Model of Electro-Gravimagnetic Field, Charges and Currents. Law of Inertia

TL;DR

This paper develops a biquaternionic model based on Maxwell and Dirac equations to describe electro-gravimagnetic fields, charges, and currents, providing fundamental solutions and analyzing their properties.

Contribution

It introduces a novel biquaternionic framework for electro-gravimagnetic fields, extending classical equations to include gravimagnetic phenomena and deriving explicit solutions.

Findings

Fundamental solutions include spinors, plane waves, and shock EGMwaves.

Properties of solutions are systematically analyzed.

The model unifies electric and gravimagnetic interactions.

Abstract

One the base of Maxwell and Dirac equations the one biquaternionic model of electro-gravimagnetic (EGM) fields is considered. The closed system of biquaternionic wave equations is constructed for determination of free system of electric and gravimagnetic charges and currents and generated by them EGM-field. By using generalized functions theory the fundamental and regular solutions of this system are determined and some of them are considered (spinors, plane waves, shock EGMwaves and others). The properties of these solutions are investigated.