The Connection between Quantum Mechanics & Gravity
Abstract
It is argued in this paper that the gravitational field is some residual non-linear electromagnetic field. The equations of gravitation are interpreted as a manifestation of the elasticity of space-time. Gravitational Constant is derived based on quantum mechanics (i.e., QCD), and the theory is tested on calculation of Earth’s space-time curvature. The rotating power radiated as an electromagnetic (EM) wave cumulated to all particles that compose an object (due of superposition principle) is obtained based on the rotating magnetic field as generated by induction of the monopole current inside the nucleon. The reflection of this EM wave by other object represents the attraction force equivalent with Newton law and enables the calculations of the gravitation accelerations for Earth and Sun, and the forces of attraction of Sun-Earth system. Further, the nature of dark matter is proposed based on vacuum (anti)monopole condensate particles participating in weak interaction and the theory is tested on the calculation of light bending by the Earth. It is also proposed that the gravitational interaction of two monopoles (Planck particles) situated at Compton wave-length of bosons is behind of the Higgs field. In short, it seems that there exists a firm connection between gravity and quantum mechanics and the Planck particles may play a major role in the explanation of gravity.