Cosmogony of the solar system
From the four-neutrino supersymmetry it results that a virtual pion in defined state of a neutron may consist of maximally 4^32 neutrinos. Since we have two states of neutrons then virtual pions in neutron can interact weakly (because of the long-distance interactions of the weak charges of the neutrinos) with maximally 2 . 4^32 other neutrons each placed in different typical black hole. Then our World on the beginning of the Big Bang contained 2 . 4^32 typical black holes. The next smaller structure it were the protogalaxies built of 2 . 4^16 the typical black holes with two cores (because of two states of neutron) each containing 4^16 typical black holes (for example M31 was created in such manner) or with one core containing 4^16 typical black holes (for example our Galaxy was created in such manner). The next smaller structure it were the globular protoclusters built of 2 . 4^8 the typical black holes with two cores (some of the globular clusters have oval shape) - such structure has mass about 3.3 million times greater than the Sun, or with one core (some of the globular clusters have spherical shape) - such structure has mass about 1.6 million times greater than the Sun. The next smaller structure it were protoclusters built of 2 . 4^4 the typical black holes with two cores and so on. Such protocluster I call the solar cluster. The cores of the solar cluster intensively evaporated and from this matter consisting of the chemical elements: H, He, O, X(64 nucleons) (it was transformed first of all into iron), Y(256 nucleons) (it was transformed first of all into uranium U(238) and next into lead) were created gas-rings which radii were defined by the Titius-Bode law. The rings were made first of all from uranium since the mass of nucleus of this chemical element is greatest. From my ultimate theory it results that A/B=1.3899 and if we assume that for the solar system A=0.41AU and B=0.295AU then we obtain better conformity with experimental data. If we assume that on the beginning of the evaporation of the solar cluster the elements of this binary system were in such distance that the centre of mass was placed in the half way from the Uranus-ring to the Neptune-ring then nowadays in the distance 28.73AU from the Sun must be placed planet i.e. Neptune (the Neptune-ring split on two rings tangential in one place). The half way from the Uranus-ring to the Neptune-ring met two waves with the same amplitude then in these places the density of matter emitted by constituents of binary system was minimal higher. Since the densities of the rings should be symmetrical then the density of the Neptune and Uranus should be higher than the densities of the Pluto and the Saturn. And it is truth (about two times higher). From the Dogon myth we know that our Sun and star called Po-tolo it was binary system. We know also that human life was created on the planet revolving Po-tolo. When the star Sirius ran across nearly Po-tolo then was created binary system of these two stars. Before the explosion of Po-tolo there was the Sirius-C which I identify with the planet Jupiter-twin.
Now I calculate the radii of orbits of planets.
From formula for angular momentum we know that if the masses of the rings do not change then evaporation of the solar cluster causes that the radii of rings increase inversely proportional to the mass of the binary constituent
Since m[ring]=const. and v[ring]=(GM[constituent]/r[ring])^1/2
Since on the beginning M[constituent-beginning]=4^4 . 4.94 . 10^31 kg=1.2646 . 10^34 kg
and now M[constituent-now]=M[sun]=1.99 . 10^30 kg
then the radii of the rings increased M[constituent-beginning]/M[sun]=6355 times
On the beginning the radius of the Earth-ring was equal to
then r[Earth-ring-beginning]=2.2897 . 10^7 m.
The nowadays radius of the orbit of the Earth should be
r[Earth-ring-now]=r[Earth-ring-beginning]M[constituent-beginning]/M[sun]=1.46 . 1011 m.
This result very well corresponds with experimental data 1.47 . 10^11 1.52 . 10^11 m.
IT IS NOT AN END OF THE COSMOGONY OF THE SOLAR SYSTEM!