Variation of the Gravitational Field Is the Reason of Materials Presenting States and Motion States Changing
作者: 韩永全 ：怀柔区茶坞铁路中学，北京;
Abstract: The gravitational field of the object is formed due to radiation and rotation. The objects can radiate because the linear velocity of objects rotation is less than the speed of light. When the linear velocity of object rotation is the same as the speed of light, the object won’t radiate anymore, and radiating particles (electromagnetic wave particles) rotate by the object’s radius, then the state is the inflection point between the matter and the dark matter. At this time, the object’s gravitational field radius is the same as the radius of the object, and will become dark matter if it continues changing. The rotation linear velocity of dark matter is faster than the light. Dark matter radiation doesn’t radiate. The gravitational field radius is equal to the radius of the dark matter; that is why dark matter is difficult to be found. The curvature of the radiation is equal to the ratio of object’s rotation speed to the speed of light. The radiation radius of the particles is equal to the speed of light/object’s rotation speed × the object’s radius. The gravitation of the celestial body is mainly determined by the radiation intensity and speed of rotation. The rotation of the celestial body makes the radiation bend, that’s why gravitation engenders. Due to the randomness and uncertainty of the radiation, the middle of the celestial body has the strongest radiation (the ray most probably exists in the middle). One celestial body has the same angular velocity, so the position of the largest gravitation should be at the equatorial plane. Thus it is easy to draw the conclusion: each independent surrounding object is circling around the objects at the Equatorial plane of the center Celestial body. When the Galaxy develops to a certain stage (Galaxy maturity), it should show the shape like the solar system. Thus the expression of the gravitational field strength size is E = G(B × ρ × T × S × ω)/R2, where R is the distance from the radiation source center, ω is the emitter’s rotation angular velocity, G is the gravitational constant, B is the radiant intensity ratio constant, ρ is the object density, T is the thermodynamic temperature, and S is the surface area. An absolute vacuum does not exist, and the vacuum is a relative one, so does the vacuum force, which must exist in vacuum space. In fact, the vacuum space is relative. If relative vacuum exists in two relative spaces, a vacuum force must exist, and the direction of the vacuum force points to the vacuum region. Any object rotates and radiates. Rotation bends radiation—centripetal, producing gravity, relative gravity and non-gravity; that’s the vacuum force. Gravity is centripetal. It is a trend that the attracted objects do centripetal movement or tend to do centripetal movement. Any object moves, so gravity makes the object do curve movement; that is to say, the curve movement must be in the gravitational objects’ radiation range. Gravity must exist in non-vacuum region, which makes the object in the region do curve movement (for example: the Earth moves around the Sun), or finally be attracted to the gravitational objects and keep relative rest with the attracting objects.
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