The problem with connecting gravitation with quantum gravitation is the key to the Grand Unified Theory (GUT). The model of these two types of gravitational fields is similar. The gravitational center forms the structure that binds energy fields around it. This means that the gravitational center will form the whirl-shaped structure around it. That whirl is the quantum field that orbits gravitational centers.
That quantum field transports other particles with it. But the problem is that. Gravitation is the weakest of the four fundamental interactions. This means that the spinning movement and evaporation of the material cause a similar effect to melting ice in a room. This thing binds energy. And that forms the effect that we call gravitation. The evaporation forms. Because expansion of the universe makes energy, or quantum fields, weaker.
The electromagnetic antigravity will not affect the gravity center itself. It pushes against the quantum whirl around the gravity centers. And entropy in gravity fields makes it almost impossible to detect that pushing force. This effect doesn’t delete the gravity field itself. The effect is visible only near black holes or neutron stars. There, the high-energy material disk pushes objects away from the structure.
The lower entropy in a black hole’s gravitational field makes it so powerful. The homogenous structure. A singularity is the thing that makes the gravity field around a black hole so powerful. In the normal gravity center, there are lots of quantum whirls that make it less powerful. Those quantum whirls or energy hills around the gravity center. Push particles away. And the lack of those whirls makes the gravity effect so powerful.
Then we must realize one another thing. Only black holes have structure, which makes them homogeneous. And homogenous structures are needed. If a structure “wants” to form a homogenous gravitational field.
In normal material, the gravitational field is entropic. The different-sized structures. Like quarks, electrons, and other atomic, molecular, and subatomic particles form the whirl that is full of whirls. That structure explains why gravitation is so weak. Whirls around gravitational centers are denser energy objects.
All of those whirls form an energy hill around the gravitational centers. Those energy hills push. Each other away. This means that the Earth's gravitational field is full of sub-whirls. When energy hits the material, those whirls will push particles away from each other. Around normal objects, the entropy in the gravitational field makes this force so weak. The gravitation. Around a black hole. Forms in a homogeneous object and quantum field interaction. That makes the gravitation around the black hole is without entropy. Or entropy in a black hole’s gravitational field is lower than that of other objects.
https://en.wikipedia.org/wiki/Gravity
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