Physics of Entropy, Radiation and Gravitating Matter with Examples of General and Analytical Solutions
The book includes ten papers that examine the physical backgrounds and mathematical simulations of entropy growth, radiation peculiarities, and the model of gravitational matter from the perspective of phenomenological analysis in the frameworks of classical Galileo-Newton mechanics, Coulomb-Maxwell electrodynamics, and Euler-Boltzmann gas dynamics. The mathematical description is based on a closed system with corresponding equations of state and boundary conditions for Galilean-invariant thermodynamically consistent rules of mass, momentum, and energy conservations. We have demonstrated that the fundamental physics rules of Newton and Coulomb derive from a single force potential relation.
M. Ja. Ivanov
Central Institute of Aviation Motors, Moscow, Russia.
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