电场中多电荷系统的运动动力学

Vasyl Tchaban
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引用次数: 0

摘要

在电工研究中,有一个问题是分析运动带电体在其运动轨迹上的相互作用。它的实际解决方案只有在一个适当的数学模型的基础上才有可能。为此,我们改编了查尔斯·库仑关于静止电荷相互作用的定律,适用于所有可能速度的运动。这考虑到电相互作用的有限传播速率。得到了带电运动体在电场中运动的封闭系统的微分方程。在此基础上,模拟了三电荷质子-电子系统中的瞬态,如元素周期表中原子的机电平衡。仿真结果附后。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Motion dynamics of a multicharging system in an electric field
In electrotechnical research there is a problem of analysis of the interaction of moving charged bodies on their trajectories. Its practical solution is possible only on the basis of an adequate mathematical model. To this end, we have adapted the law of force interaction of stationary charges by Charles Coulomb in the case of motion at all possible speeds. This takes into account the finite rate of propagation of the electrical interaction. Differential equations of motion of a closed system of charged moving bodies in their electric field are obtained. On this basis, the transients in a three-charge proton-electron system are simulated, such as the electromechanical equilibrium of an atom of a periodic table of elements. The simulation results are attached.
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