The Elastic Nature of the Mass and of the Gravitation
- David Zareski
We generalize the Schwarzschild horizon radius by considering a spherical immobile mass m0 of radius R0 of center located at a fixed ether point O , and consider a particle of mass m1 , of velocity V1 due to the interaction of the fields created by m0 and by m1 .
We prove how a mass is related to a field and what is the constitution of this field. The great lines of this proof is that even when it is immobile, a mass m is related to a frequency νm by the relation m=hνmc2 . This shows that a mass m creates a field of frequency νm propagated in the ether. The nature of such a field is that it is an ensemble of ether points only rotating on themselves, such that axes of these rotations are situated on any line passing through the center of this mass.
We proves that on the axis joining two masses m1 and m2 then, between them the fields of the rotation of the ether points due to m1 and m2 are of inverse senses that is, they partially destroys themselves, that is, there, the fields are smaller than the those that are not between m1 and m2 and situated on this axis. It follows that m1 and m2 have the tendency to get closer, that is, are submitted to a force that tends to make them closer and finally to form only one mass. This force is the gravitational attraction.
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