American Physical Society (APS) March 2020 Discovery of self-induction of Faraday's law_H71.00407 (발표자료)

Every natural phenomenon can be quantified using seven basic physical quantities: length, time, mass, temperature, electric charge (current), luminous intensity, and amount of substance. Among these quantities, matter is quantified by the basic physical quantities of mass and electric charge. The classifications between mass and charge can be attributed to the fact that the force of mass between two types of matter is universal gravitation, and the forces of electric charge are divided into electric and magnetic forces. Matter should be characterized using physical quantities corresponding to its electric charge and mass. Matter has a gravitational field when considered from the perspective of mass and an electric field when considered from the perspective of electric charge. Furthermore, a mass of matter does not generate any field except for a gravitational field, even when it undergoes motion with velocity 𝑣0; however, when its charge undergoes uniform motion, not only an electric field, but also a time independent magnetic field is generated. 

When we apply the conception of matter, including mass and electric charge, the Lorentz force is given as below 

1. Because the Lorentz force in a fixed inertial system requires three charges of different speeds, the observer in a moving inertial system must physically distinguish between the charges that generate an electric field and the charges that generate a magnetic field. 

2. For three charges of Lorentz force, two of the three charges generate a magnetic field in accordance with Ampère’s law and all three charges generate an electric field in accordance with Gauss's law. 

Therefore, because the well-known Lorentz force cannot distinguish between an electric field and magnetic field generated by each electric charge, relativistic electromagnetism of Minkowski force is useless. And 

Because Planck's constant can be mathematically derived, we know that electromagnetic waves are used as a form of releasing oscillation energy, held by the charge, to return to an equilibrium state when the charge of an electric dipole is oscillated (or revolved + oscillated) by external energy.