Gravitation and its connection with strong nuclear interaction is the key element in the GUT (Grand Unified theory)

The thing, that makes gravitation interesting is that it affects all particles in a similar way. Gravitation is also interesting because it is neutral. And that makes some researchers believe that the "Atomos" is real. There is the possibility that all particles are involved in the same particle or structure. So gravitation is the effect that affects those yet unknown particles. Maybe those particles are hypothetical graviton particles. 

In some theories, the graviton and gluon are the same particles. In those models, gluon is a fast-rotating particle like a small-size pulsar between quarks. So when the jet from those fact-rotating particles that can be the quantum size black hole is sending radiation simultaneously. It causes the effect where quarks are pulling and pushing each other. 

In that model graviton is an extremely small particle. That causes interaction in the area that is an extremely small part of the quark. 

There are two forms of that model. 

1) Gluon is rotating like the quantum jet from its poles hits horizontally to the quark. In that model the position of the hypothetical graviton particle is recumbent. The graviton particle's poles face quark. And then they are turning away. And that thing causes the electromagnetic or quantum vacuum between quarks. 

2) Graviton is an object whose position is stable. So the poles of the graviton are turning to quarks. And then the area where that jet impacts the quark is very small. The thing that causes the pulling effect is the quantum shadow or electromagnetic low pressure around that energy tube. That thing causes a weaker but larger area-pulling effect on the quarks. 

And if that thing is the radiation what that gravitation sends will sometimes hit the superstring that forms the quark. So if that kind of model is true the gravitational interaction is the same force that changes its form when it travels through atoms. 

The four fundamental interactions are. 

1) Strong nuclear force 

2) Weak nuclear force

3) Electromagnetism 

4) Gravitation

So the thing that makes people believe in the GUT (Grand Unified Theory) is that they all seem to be the same force. The anti-gravitation is not found. And making sure that this theory is right is difficult. The thing is that these kinds of theories are theories until they are proven. The thing that makes GUT real is finding the mysterious graviton. Without that particle, that thing is just theory. 

The idea of the GUT Grand Unified theory is simple. 

1) Strong nuclear force is the wave motion in which the source is in gluons. Then that force travels to quark. Strong nuclear interaction or strong nuclear force is the interaction between quark and gluon. 

That quark transforms the wavelength of strong nuclear interaction to interaction that interacts with the quantum field around three quarks (and some other particles). 

2) That structure is called hadrons. The hadrons, their quantum field is transforming the wavelength of that wave motion to the thing that is called weak nuclear interaction. 

3) Electromagnetic interaction is the interaction between the nucleus of the atoms and their electrons. The harmonic oscillation of all quantum fields of the nucleus of the atoms sends the energy to the electron cores. And electrons are repelling each other. 

4 Then the electron cores are sending the wave motion out from the atom. 

So the GUT theory describes all fundamental forces as one force. The particles are the transformers that are transforming the wavelength of that force. 

The model of the GUT is that all those things from the strong nuclear interaction to gravitation are wave motion. When that wave motion travels through the atom from the smallest to the largest. Its wavelength changes. The origin of the wave motion is in the particles that are known as gluons. When that wave motion travels through the particles. Its wavelength changes. 

At first, the wavelength of that wave motion is the same as the size of the gluon. Then that wave motion impacts the quark. The resonating quarks send wave motion. That has the same wavelength as the size of the quark.

Then that wave motion travels through the proton impacts to the electron cores. And finally, after that, the resonance travels out from the atom. The thing that supports this model is that the size of the atom determines the wavelength of the emission radiation. This thing makes spectroscopy possible. 

The thing that causes different wavelengths of the different atoms is the size of the electron core. The electron core sends the radiation. So that means there is the possibility that (we can think) all interactions or fundamental forces are the same force that has different states. That means the different size particles are acting as the transformers that are just transforming the force or its transporting wave motion to another one.