Deriving The Bekenstein-Hawking entropy by Statistical Mechanics and Quantization of Non-Commuting Space

Abstract

In this paper, we derive the Bekenstein-Hawking entropy by considering a Non-Commuting two dimensional quantized space, and we will show that the Bekenstein-Hawking entropy is valid for the system (black hole) in an equilibrium state. Also, by using the entropy was obtained, we derive the Einstein and Newton gravity equation, and finally, we get an equation that is consistent with the previous results. In other words, we want to show that by using the statistical mechanics and quantization of space and the excitation of space quanta, can be obtained the Einstein and Newton gravity equation. In general, we try to show that the all equation of gravity and thermodynamics of gravitational systems have quantum and statistical origin.