Investigation of Coulomb’s law and the nature of the electric charge

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY Journal of Physics Communications Pub Date : 2023-04-17 DOI:10.1088/2399-6528/accdb4
Saqer M Darwish
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Abstract

This theoretical work investigates spin-spin energy in the hydrogen atom and its relation to Coulomb’s force law. Most elementary particles are assigned intrinsic properties of carrying electric charges, which leave us blundering about the essence of electric charge. The perplexity originated in Coulomb’s force law when the proportionality constant is expressed using the free vacuum electric permittivity constant ε 0 in units of. C2m−2. N−1. Introducing these units by the proportionality constant canceled any direct role for the electric charge. In this research, a genuine suggestion based on energy conservation redefines Coulomb’s force law. A new formula has been suggested for the force between two spinning particles. The results of energy and force calculations agreed with Coulomb’s law evaluations. The spin-spin energy is related to the electric potential energy, and the electric charge is found to be connected to the rotational energy of the mass.
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库仑定律与电荷性质的研究
这项理论工作研究了氢原子中的自旋-自旋能量及其与库仑力定律的关系。大多数基本粒子都具有携带电荷的固有性质,这让我们对电荷的本质产生了误解。当比例常数用自由真空介电常数ε0表示时,困惑源于库仑力定律,单位为。C2m−2.N−1。通过比例常数引入这些单位抵消了电荷的任何直接作用。在这项研究中,一个基于能量守恒的真实建议重新定义了库仑力定律。对于两个自旋粒子之间的力,提出了一个新的公式。能量和力的计算结果与库仑定律的评估结果一致。自旋-自旋能量与势能有关,电荷与质量的旋转能量有关。
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来源期刊
Journal of Physics Communications
Journal of Physics Communications PHYSICS, MULTIDISCIPLINARY-
CiteScore
2.60
自引率
0.00%
发文量
114
审稿时长
10 weeks
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