Systems of energy emitting bodies and their properties

TL;DR

This paper introduces a new mathematical modeling framework for energy emitting bodies, enhancing predictions of nuclear binding energies and validated through experimental comparisons.

Contribution

It develops a unified set of models for physical laws governing energy emitting bodies, applicable to stable and radioactive systems, improving nuclear binding energy predictions.

Findings

Models successfully describe systems of energy emitting bodies.

Improved accuracy in predicting binding energies of light nuclides.

Experimental verification supports the models' validity.

Abstract

Proposed is system of consistent mathematical models describing physical laws of a system of energy emitting bodies in dynamics, relativity and nuclear physics. It is shown the use of developed models for the description of systems, consisting of stable as well as of radioactive bodies and permitting to improve the quality of predicting the binding energy of light stable nuclides using modified semi-empirical equation. Experimental verification of proposed approach with respect to some nuclei of the Periodic Table elements in the first approximation confirms its validity.