September 14, 2014
gravitation, star: rotary, disc galaxy, repulsion, relativity, gyrotation, gravitomagnetism, chaos
This publication concerns the fundamentals of the dynamics of masses interacting by gravitation. We start with the Maxwell analogy for gravitation or the Heaviside field, and we develop a model. This model of dynamics, which we know takes in account the retardation of light, allow us to quantify the transfer of angular movement point by point by the means of vectors, and to bring a simple, precise and detailed explanation to a large number of cosmic phenomena. And to all appearances, the theory completes gravitation into a wave theory. With this model the flatness of our solar system and our Milky way can be explained as being caused by an angular collapse of the orbits, creating so a density increase of the disc. Also the halo is explained. The “missing mass” (dark matter) problem is solved, and without harming the Keplerian motion law. The theory also explains the deviation of mass like in the Diabolo shape of rotary supernova having mass losses, and it defines the angle of mass losses at 0° and at 35°16’. Some quantitative calculations describe in detail the relativistic attraction forces maintaining entire the fast rotating stars, the tendency of distortion toward a toroid-like shape, and the description of the attraction fields outside of a rotary black hole...