The evoluting process of Astronomical object is demonstrated by the principle of inertia

抄録

In view of the nebular hypothesis of the origin and evolution of the solar system and the related problems of denying the hypothesis due to the mismatch between angular momentum and mass distribution, the theory of Nebular is based on the law of gravity, while the angular momentum distribution is based on the principle of conservation of angular momentum in the motion of objects. The former mainly involves the static process of the mass of an object, while the latter involves the dynamic process of an object. According to the angular momentum conservation argument of general relativity on distorted Space-Time and the principle of natural inertial evolution, the equilibrium relationship between the planet (Earth) and the natural satellite (moon) is obtained according to the balance equation of the earth-moon system, and the extreme distance between the natural satellite and the planet is obtained, that is, the maximum value that can be obtained if the moon and the earth are in balance. This value is basically consistent with the current state of the moon. Secondly, the relationship between stars (sun) and planets (eight planets) is analyzed in a similar way, and the extreme distance between Jupiter (among the planets in the solar system, it has the heaviest mass, the fastest rotation, a moderate distance from the sun, and the orbital period is completely synchronized with the sun) and the Sun is calculated according to the equilibrium equation, and the current distance value of the eight planets is compared with the extreme distance in proportion. The extreme distance of each planet is obtained, and it is concluded that Mercury has exceeded the extreme distance of merging by the sun (system), that is, it is in the early stage of merging; Pluto is on the verge of equilibrium with the Sun; The extreme value of eccentricity for determining the state of the planet is given. Based on the mass energy equation and the characteristic data of the evolution of the solar system, it is shown that the planets in the solar system are angular momentum equilibrium relations characterized by moment of inertia and constrained by inertial surge force equilibrium. The energy source of planets formation and the equilibrium relationship of merger is explained in detail by the two basic arguments of stellar radiation heat energy and inward inertial rotation force. This method will be of great practical value to the exploration of celestial bodies.