This study interprets the formation and evolution of electrons, temperature, matter, mass, nuclear fusion, and nuclear fission from the perspective of Absolute-Temperature Electromagnetic Rotational Resonance Cosmology (EMRR). Within this framework, the electron is defined as the minimum contraction point of resonance, while temperature is redefined as the degree of deviation from the resonant equilibrium state. Matter is regarded as a pressure-based particulate structure that emerges through the evolutionary progression of resonance. Furthermore, nuclear fusion and nuclear fission are interpreted as fluid-dynamic reorganization processes occurring under extreme thermal environments, where atomic and subatomic structures undergo continuous reconfiguration. The evolution of chemical elements is described as a sequential process driven toward increasing fluid-dynamic stability and structural equilibrium. Based on this interpretation, the study proposes a cosmological model in which matter and energy evolve through dynamic interactions within a resonant electromagnetic framework, providing an alternative perspective on the origin, transformation, and organization of physical structures in the universe. *Note: This paper is part of a series of studies. For a more comprehensive understanding, readers are encouraged to refer to the materials listed below.
DEOKHO JEON (Mon,) studied this question.
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