Relativity and Cosmology

   

The Binding Energy and the Total Energy of a Macroscopic Body in the Relativistic Uniform Model

Authors: Sergey G. Fedosin

The total energy, binding energy, energy of fields, pressure energy and the potential energy of the system consisting of particles and four fields is precisely calculated in the relativistic uniform model. These energies are compared with the kinetic energy of particles. The relations between the coefficients of the acceleration field and the pressure field independent of the system’s properties are found, which can be expressed in terms of each other and in terms of the gravitational constant and the vacuum permittivity. A noticeable difference is shown between the obtained results and the relations for simple systems in classical mechanics, in which the acceleration field and pressure field are not taken into account or the pressure is considered to be a simple scalar quantity. The conclusion is substantiated that as increasingly massive relativistic uniform systems are formed, the average density of these systems decreases as compared to the average density of the particles or bodies making up these systems. In this case the inertial mass of the massive system is less than the total inertial mass of the system’s parts.

Comments: 16 Pages. Middle East Journal of Science, Vol. 5, Issue 1, pp. 46-62 (2019). doi: 10.23884/mejs.2019.5.1.06

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[v1] 2019-10-08 12:30:58

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