Electromagnetic energy is the result of electrons dropping an energy level in an atom to release the residue of energy that is the result of the given electrons losing a discrete amount of energy that corresponds to the loss of energy that the electrons have by moving further from the nuclei of the given atoms. Electrons drop an energy level when these need to or are physically coerced to to be more stable. Physical phenomena tends to work toward an ease of stability. Stability chemically means the condition of least strain. Stability is eased when things spontaneously happen in the manner that requires the least coercive work. Electrons, like all other non-entropic/non perturbative phenomena under stable conditions, tend to do only what these need to do. The condition to this is that phenomena works together to not allow the glut of waste. Light is the most common form of electromagnetic energy. Light scatters when it strikes matter. When light scatters, it produces a certain amount of infrared energy. Infrared energy is heat. Infrared energy is one type of a wavelength of electromagnetic energy that is larger in wavelength than visible light. All scattered light forms infrared energy and thus forms heat. Heat is thus a form of electromotive force. All Calabi-Yau, Calabi-Wilson-Gordan, and Calabi-Calabi interactions involve light and heat and the permittivity and impedance of electromagnetic energy. Thus, all Calabi-Yau, Calabi-Wilson-Gordan, and Calabi-Calabi interactions are examples of the electromotive force. Permittivity is the allowance of holomorphicity, while impedance is the allowance of antiholomorphicity.
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