About influence of gravity on heat conductivity process of the Planets

TL;DR

This paper explores how gravitational interactions influence heat conductivity in planets, providing a model that links classical and quantum physics to explain planetary heat equilibrium.

Contribution

It introduces a mechanism connecting gravitational waves and density fluctuations to heat conductivity, bridging classical and quantum physics in planetary heat transfer.

Findings

Gravitational waves affect planetary heat conductivity.

A dependence of heat conductivity on gravitational interactions is calculated.

The model aids understanding planetary thermal equilibrium.

Abstract

In the present study it is shown that the interaction of a quasi-static gravitational wave through density fluctuations gives rise to a heat conductivity coefficient and hence temperature. This fact is a very important characteristics to establish a heat equilibrium process of such massive body as the Earth and other Planets. To carry out this exercise general mechanism has been provided, which makes a bridge between classical physics and quantum theory, and specific dependence of heat conductivity coefficient in wide region is also calculated.