When we are thinking about three interactions, strong interaction or weak nuclear force, and electromagnetism the reason for their ability to interact only in short distances can be simpler than we ever thought. The reason for that short-distance interaction is that the particles that are interacting are so small.
When the boson starts to transmit force it will turn to wave motion before it can start affecting the particle. The small size of those particles like quarks causes the wave motion cannot form a vacuum on the other side of the particle.
But the thing about gravitation is that seems to interact the wrong way. Gravitation should travel away from the gravitational center. This is the reason why black holes send gravitational waves. But why that thing pulls objects together? When all other particles send energy they are oscillating. And that oscillation breaks the bonds between those particles. Why gravitation acts otherwise?
The gravitational effect acts opposite way to other forces. In regular quantum, systems energy flows to the lower energy level. But in gravitation. All objects travel to heavier objects. And because gravitation is radiation it's also energy.
Black holes are pulling also wave motion inside it. And that means the black hole is at a lower energy level than other particles and objects in the universe. The fact is this in regular quantum systems the energy should travel away from the black hole.
And if we want to take a simple example we can think about the tube and water as energy. The water flows to the lower energy level. But in nature the gravitation is energy. And that means gravitation should act otherwise.
In the case of Earth, the planet is the gravitational center. And that means the level of gravitational energy should be higher on the Earth. So gravitation should travel away from earth. And that thing causes another interesting thing.
Is a gravitation vacuum that forms ahead of the objects. And then that vacuum pulls the objects together? That thing means that gravitational wave motion travels to Earth. Not away from it. That thing explains why gravitation pulls objects together.
In the case of wormholes, the more massive black hole would send gravitational waves to the smaller black hole. The reason for that is gravitation should act like all other forces. In quantum entanglement, or in the case where a wormhole connects two black holes, the system attempts to get energy stability. So the energy should travel from the higher energy black hole to the lower energy black hole.
But the thing is that the supermassive black holes should have higher gravitational energy levels than other objects in the universe. And that energy should travel away from the black hole. Gravitation is energy or radiation like all other wave motions. Why that force is so different than all other forces? That thing is the key element to understanding the interactions in the universe.
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