%0 Journal Article
%T 论小尺度上的引力大小和黑洞的关系<br>On the Relationship between Gravitational Strength on Small Scales and Black Holes
%A 陈军利
%J Astronomy and Astrophysics
%P 1-7
%@ 2329-1265
%D 2024
%I Hans Publishing
%R 10.12677/AAS.2024.121001
%X 传统的观点认为：在无限小的尺度上都存在引力，大质量恒星坍缩后，小于施瓦西半径的天体形成黑洞，黑洞中引力无限大，物质密度无限大。本文分析了引力的产生、传播过程，认为引力是由核子发出引力子，引力子在空间以引力能量波的形式传播，当引力能量波遇到其它核子时，与其发生共振实现能量转移的过程。核力是引力在微观距离上的表现，核力在小于1.5 × 10？15 m上表现为斥力，因此，在无限小的尺度上不存在引力，物质密度极限为中子星密度。施瓦西半径、黑洞和奇点只是未考虑引力极限和物质密度极限的数学推理，目前流行的黑洞概念实际应该指旋转星系的中心。<br />
The traditional view is that gravity exists on infinitely small scales. After the collapse of a massive star, a celestial body smaller than the Schwarzschild radius forms a black hole. The gravity in the black hole is infinite and the density of matter is infinite. This article analyzes the generation and propagation process of gravity, and believes that gravity is the process of gravitons emitted by nu-cleons, which propagate in the form of gravitational energy waves in space. When the gravitational energy waves encounter other nucleons, they resonate with them to achieve energy transfer. Nu-clear force is the manifestation of gravity at microscopic distances. Nuclear force appears as repul-sive force at distances less than 1.5 × 10？15 m. Therefore, there is no gravity on infinitely small scales, and the limit of material density is the density of neutron stars. Schwarzschild radius, black holes and singularities are just mathematical reasoning that does not consider the limits of gravity and matter density. The currently popular concept of black holes should actually refer to the center of a rotating galaxy.
%K 引力极限，物质密度极限，施瓦西半径，黑洞，奇点<br>Gravity Limit
%K Matter Density Limit
%K Schwarzschild Radius
%K Black Hole
%K Singularity
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=80807