Two components of the macroscopic general field

TL;DR

This paper proposes a unified framework dividing the macroscopic general field into mass and charge components, deriving related field equations and linking vacuum fields to macroscopic phenomena.

Contribution

It introduces a novel division of the macroscopic general field into mass and charge components and derives comprehensive field equations using the principle of least action.

Findings

Derived field equations for mass and charge components.

Established relationships between vacuum and macroscopic fields.

Calibrated the cosmological constant within this framework.

Abstract

The general field, containing all the macroscopic fields in it, is divided into the mass component, the source of which is the mass four-current, and the charge component, the source of which is the charge four-current. The mass component includes the gravitational field, acceleration field, pressure field, dissipation field, strong interaction and weak interaction fields, other vector fields. The charge component of the general field represents the electromagnetic field. With the help of the principle of least action we derived the field equations, the equation of the matter's motion in the general field, the equation for the metric, the energy and momentum of the system of matter and its fields, and calibrated the cosmological constant. The general field components are related to the corresponding vacuum field components so that the vacuum field generates the general field at the macroscopic level.