Читать книгу Verification of M.Faraday's hypothesis on the gravitational power lines онлайн
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The hypothesis according to which the mass distribution along the radius in the planetary and satellite systems is determined by the distance between neighboring orbits and gravitational tension is proposed. Hypothesis is supported by the linear dependence of the density of orbiting bodies on the value of their orbital radii at the correlation coefficient 0,90-0,91.
In the final tenth chapter is given a critical analysis of the existing theories of the origin of the solar system and is proposed a new interpretation of the problem.
In the process of the emergence and evolution of planetary and satellite systems involve three known mechanisms: condensation (accretion), division and seizure. Condensation and accretion, as well as the slow accumulation in orbit changes occur during the gradual evolutionary change systems, which are then accompanied by an abrupt (catastrophic) change as a result of fission and capture cosmic bodies.
It is summarizes the requirements to be met by the modern theory of the origin of the solar system. The formation of planetary and satellite systems consist of two types of processes: the "revolutionary" and evolutionary. Among the revolutionary are fast processes of fission and capture of bodies. To evolutionary processes belong to condensation and accretion, the gradual orbit changes due to gravitational braking and action disturbing forces. As a result of a gradual change in weight, increase in size, gravitational braking and action perturbing forces orbital system becomes unstable, and there comes a stage of revolutionary change. Celestial bodies have been always existed as well planetary and satellite systems forming or disintegrated by recombination (mechanism of capture) or accidents related to the division or merger of the central bodies and the transition of orbiting bodies to the other orbit. Accretion mechanism operates in the gap between the revolutionary transformations. It is expressed in a gradual change in the mass, the accumulation of secular changes in the orbit, which eventually expressed in the "aging" of the system, the loss of its stability and transformation by mechanism of capture or fission.