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Is gravitation an independent force? Or is it "only" some "special" version of electromagnetism?
Have you ever thought about why gravitation has a long-distance effect? Why do the weakest of the fundamental interactions have long-range interaction? Why do other natural forces like strong-nuclear force have only a short-distance effect?
And why the distance of the fundamental interaction increases when the scale of the effecting particles increases? The strong nuclear force affects only on the scale that is smaller than proton or neutron. But the electromagnetism effects also between the atomic groups. The difference between electromagnetism and gravitation is neutral.
Gravitation is the non-polar force that effect is not depending on the poles of the particles. The electromagnetism pushes and pulls the objects depending are the same poles opposite together. The thing that causes the pulling is the electron flow and electromagnetic fields around the magnets.
And then if gravitation is similar to electromagnetism. There is the possibility that its origin is in the quantum fields around the atom. The quantum field around the atom is like a series of flashes of lightning. So the quantum field can turn against other quantum fields and start to pull the particles to each other.
If the origin of the gravitation is in quantum fields around that would explain why that force is so weak. And maybe gravitation is "only" the similar interaction with electromagnetism but its origin is in the electromagnetic bubble around the atom. Or maybe, it's the sum of all quantum fields of the atom.
Is gravitation pulling or pushing force?
The origin of the gravitation might be in the gluon interaction inside protons and neutrons. Those particles called gluons are moving between quarks. they are sending wave movement that makes the quantum fields around the atom oscillate. When the electromagnetic field jumps ahead. It pushes the EM or energy wave forward. And maybe that wave movement is the gravitation wave.
When the quantum field around the atom pushes other quantum fields they are getting energy from that movement. And when the energy level of atoms increases their weight is also increasing. That causes interaction where the energy jumps from one quantum field to another.
When the quantum field of the atom moves backward that causes the low energetic area near the atom. And that means energy will start to flow in that lower energetic area.
That means the hypothetical graviton could be a virtual particle like an extremely small electromagnetic whirl like an extremely small skyrmion. In that theory, this virtual particle will just open the electromagnetic (or gravitational) channel between the particles or atoms. So is there some kind of weaker energy area between particles and that makes them come closer?
When we are thinking about the distance of the effect of the gravitation. We might think that the size of the interaction causes that the gravitation will affect so long distances. The electromagnetic or quantum fields of atoms are much bigger than the size of electrons or quarks is.
So if the origin of the gravitation is in the quantum fields of the atom. The surface area of the interactive area is very large if we want to compare that thing with the size of the interactive area of the strong nuclear force. And maybe the size of the interactive area of the force is larger the interaction will happen in long distances.
https://en.wikipedia.org/wiki/Fundamental_interaction
https://en.wikipedia.org/wiki/Gravitational_wave
https://en.wikipedia.org/wiki/Gravity
Image:https://en.wikipedia.org/wiki/Fundamental_interaction
https://thoughtandmachines.blogspot.com/
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