Renewed Concepts for Electric Charge, Electric Current and Magnetic Charge by the Energy Circulation Theory

Reports in Advances of Physical Sciences Pub Date : 2023-01-01 DOI:10.1142/s2424942423500081

S. Nagao

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Abstract

The existing electromagnetism (EM) expects isolated elementary electric charges [Formula: see text] or [Formula: see text], and allows their clusters [Formula: see text]. If such isolated charges were possible, a notable force should have worked between electrodes of batteries. However, we practically cannot detect a force between electrodes of adjacent two cells or those of a capacitor. This is critical and requests a drastic correction of key concepts in EM. According to our proposed energy circulation theory, the electric charge is the momentum in the hidden dimension of the 4D space. The electric force is a presentation of the fundamental force that works based on momentums. The elementary charge [Formula: see text] of an electron is not a point charge but spreads even until its counter such as a proton. Plus and minus charges align alternately with the interval [Formula: see text] same as the diameter of a quantum particle. The elementary charge e is not the minimum charge but the maximum charge. The force within a prolonged electric charge pair is same as that expected by the standard EM. However, the charges at the two ends are as small as about [Formula: see text], and hardly affect an electrostatic force with an outside charge. This is the reason why an electrostatic force does not work between an electrode of a cell and that of another cell. Here in this paper, we claim to express the electric current by the energy of electric polarization instead of the electric charge. As a unit of polarization energy, we newly define the polar charge, by which we express the electric current. We further define the magnetic charge as a momentum in space dimensions of a hidden–space-dimensional energy circulation. It is a vector charge in the 3D space while the electric charge is a scalar charge. We demonstrate how a rotation of magnetic charges is induced and derive the equation of magnetic charge density around the electric current.

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能量循环理论对电荷、电流和磁荷概念的更新

现有的电磁学(EM)期望孤立的基本电荷[公式:见文]或[公式:见文]，并允许它们聚集[公式:见文]。如果这种孤立的电荷是可能的，那么在电池电极之间应该有一种明显的力在起作用。然而，我们实际上无法检测相邻两个电池或电容器电极之间的力。这是至关重要的，需要对EM中的关键概念进行重大修正。根据我们提出的能量循环理论，电荷是四维空间中隐藏维度的动量。电磁力是基于动量的基本力的一种表示。电子的基本电荷[公式:见原文]不是点电荷，而是一直扩散到它的对手(如质子)。正负电荷交替排列的间隔[公式:见文本]与量子粒子的直径相同。基本电荷e不是最小电荷，而是最大电荷。在一个延长的电荷对内的力与标准EM所期望的力相同，但两端的电荷很小，约为[公式:见文]，并且几乎不影响带外部电荷的静电力。这就是为什么静电力在一个电池的电极和另一个电池的电极之间不起作用的原因。在本文中，我们主张用电极化能量来表示电流，而不是用电荷来表示电流。作为极化能的单位，我们重新定义了极性电荷，用它来表示电流。我们进一步将磁荷定义为隐藏空间维能量循环的空间维动量。它是三维空间中的矢量电荷而电荷是标量电荷。我们演示了磁荷的旋转是如何被诱导的，并推导了围绕电流的磁荷密度方程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Reports in Advances of Physical Sciences

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审稿时长

3 weeks