Nonidentical Relations of Skew-Symmetric Forms: Generation of Closed Exterior Forms. Discrete Transitions. Connection between Field-theory Equations and Nonidentical Relations

Authors

  • L. I. Petrova Moscow State University, Department of Computational Mathematics and Cybernetics, Russia.

DOI:

https://doi.org/10.9734/bpi/ctmcs/v7/3369F

Keywords:

Degenerate transformation, discrete transitions, nonidentical and identical relations, non-integrable manifolds, skew-symmetric forms

Abstract

Nonidentical relations of skew-symmetric differential forms, which basis are non?integrable deforming manifolds follow from differential equations. From nonidentical relations closed exterior forms are obtained. The process of obtaining closed exterior forms describes the discrete transitions and the emergence of structures and observable formations such as waves, vertices, and turbulent pulsations.

It is shown that the field theory equations (by Schroedinger, Maxwell, Einstein and others) turns to be nonidentical relations, obtained from the mathematical physics equations for material media such as the cosmologic systems, the systems of charged particles and others.

Published

2021-08-05

How to Cite

L. I. Petrova. (2021). Nonidentical Relations of Skew-Symmetric Forms: Generation of Closed Exterior Forms. Discrete Transitions. Connection between Field-theory Equations and Nonidentical Relations. Current Topics on Mathematics and Computer Science Vol. 7, 150–166. https://doi.org/10.9734/bpi/ctmcs/v7/3369F

Issue

Current Topics on Mathematics and Computer Science Vol. 7

Section

Chapters