Abstract
We precise the concept of ether by proving that its points can only rotate elastically on themselves, the ether volumetric density remains then constant, and an ether wave is the propagation of elastic ether point rotations. We prove that: a particle is constituted by ether point rotations, i.e., when a particle moves, only elastic ether rotations change their emplacements, but not those of the ether points; a particle is generally constituted by a sum of monochromatic ether waves that becomes only one of them when it is confined to move around a nucleus; the changes in the ether created by a particle but out of it, is the field that it created; two ether waves associated each to an electron moving in opposite sense around the nuclei can form by interference a stationary wave of very small energy. An atom of which all the electron ether waves are coupled, is said “noble”. A single electron ether wave can also propagate around the nucleus without falling on the nucleus, this happens when this ether wave superpose itself adequately at each round, this case is an “oxidation”. We prove that there is a “strong gravitation” between two protons even in a repulsive electromagnetic field when they are sufficiently close one to the other, this is explained by the General Relativity and the ether concept. We present then the ether elasticity interpretation of the “chemical” reaction and of the “nuclear” reaction and prove that two very close protons are submitted to a very strong gravitation that overcome their electrical repulsion as for example: two H nuclei form a He nucleus, on the contrary to the fact that in heavy nuclei, there are protons that cannot get close and therefore are submitted to repulsive forces that can cause their disintegration.
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