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How strong is strong nuclear force?



Image 1:)


Strong nuclear force holds 99% of the universe's mass. That means its strongest known interaction. And somebody has introduced that gravitation is strong interaction that leaks from the atoms. The strong interaction is an interaction between quarks and gluons.  

The strong interaction is the reason why the annihilation reaction is so powerful. And that reaction where antimatter faces material is the only known reaction where a strong nuclear force is released. But when we are thinking about the form of the baryons or baryonic hadrons we can focus on why two black holes orbit very close to each other and are sending gravitational waves. The origin of the gravitational waves could be in the gluon tunnels between the quark and gluon. 

The baryon or baryonic hadrons like proton and neutron are forming of three particles called quarks. Or, the most common baryons, protons, and neutrons consist of the quarks and gluons that transmit strong nuclear force between those quarks. When baryonic hadrons are spinning with extremely high speed that structure would act like the boom that throws the wave motion that travels through the quantum field of baryon away from it.

In the same way, the black holes that are orbiting each other are creating the energy bridge between them. So there is the possibility that there are gluon tunnels that are traveling between those black holes. 




Image 2:) Proton


When we are thinking about the mysterious graviton. Researchers could find that still hypothetical particle somewhere between gluon and quark. If we are thinking that the X-rays are coming from quarks and gamma rays come from gluons. That means the next particle in the atom's nucleus could be a graviton. 

Because gravitational waves existed. That means we can call that phenomenon gravitational radiation. Gravitational waves are wave motions like light. So when we are thinking about the spin of gravitational baryons the channel between quarks can throw that gravitational wave motion to the sides of the baryons. 

And maybe the gravitation or gravitational waves are at an extremely high energy level. But the radiation would not transmit energy to the particle. Or the thermal energy will transfer away from it immediately. There are two ways that things can happen. The first way is that gravitational radiation will travel over the particle without touching it. That forms an electromagnetic vacuum behind that particle. 

And the light quantum that the material sends will travel through that shadow. Or the pressure of gravitational radiation pushes energy through the particle. That means the energy flow from the backward of the material is higher than at the front of it. 

One of the reasons for that is the vaporization of the particle. That impacting gravitation radiation causes the asymmetry in the energy field of that particle. But the vaporization of material that is the reason for cosmic inflation means that the gravitation radiation turns stronger in the back of the particle. 


https://scitechdaily.com/the-strength-of-the-strong-force-accounting-for-99-of-the-ordinary-mass-in-the-universe/


https://en.wikipedia.org/wiki/Baryon


https://en.wikipedia.org/wiki/Neutron


https://en.wikipedia.org/wiki/Proton


Image 1:) https://scitechdaily.com/the-strength-of-the-strong-force-accounting-for-99-of-the-ordinary-mass-in-the-universe/


Image 2:) https://en.wikipedia.org/wiki/Proton


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