The elementary particles of the Standard model
Should we update the standard model? Definitely yes. But the thing in that operation is that. Almost every single thing that is calculated and made in physics uses the standard model as the matrix. And in that case, there is the possibility that the calculations are wrong. If the standard model is wrong that means that all things bases on that model are wrong.
The Muon G-2 experiment and the experiments made after that experiment have shown that there is the possibility of the existence of the "Fifth force" or "fifth fundamental interaction". So if we are thinking of the standard model and the four fundamental interactions we must say that there is the possibility that the "fifth fundamental force" is even more dominating but at the same time weaker than gravitation.
The reason why that thing is possible is that when the fundamental forces are turning weaker when their scale or effective distance is increasing. Gravitation is the only interaction that interacts in long distances.
So logically we can think that the fifth force interacts even longer distances than gravitation. That means the fifth force can help to solve the question of the existence of the multiverse. There is the possibility that the fifth force has similar wave-particle duality like all other fundamental forces except gravitation.
If gravitation is the weakest known force, the reason for it may be simple. Gravitation would not be limited to the quantum field of the atom. And if we use allegories. The density of gravitation is lower than that of other basic interactions. The reason for this is that gravitation affects longer distances than three other fundamental interactions.
The strength of the interactions rises when their range decreases. The reason for that could be that energy is trapped in some kind of quantum field. And that means the energy in those quantum fields cannot erupt.
And it's not limited by the quantum field of the atom. Gravitons are the hypothetical transportation particles of gravitation. The existence of the graviton is predicted because all other fundamental interactions have the transportation particle. But because there is no observation about the graviton. There are discussions is gravitation one the independent interactions or not.
And that means the hypothetical fifth force is interacting between even longer distances than gravitation. But the same way the fifth force is weaker than gravitation. So even if gravitation is the weakest of the known interactions it's the weakest of four interactions.
The strongest of the interaction is the strong nuclear force. That force is the thing that keeps quarks in the protons and neutrons. The strong nuclear force affects only between quarks. The transporter particle of that force is the gluon which jumps between quarks. The answer for the strength of the strong nuclear force is maybe coming from the quantum field.
When the gluon hits the quark it would touch the quantum field that is forming the core of the proton or neutron. The quantum field would also get energy outside the atom. And when the particles are hitting the quantum field. That thing acts like a lens and aims the energy back in its entirety called proton or neutron.
Or energy can store in that quantum field. And when the mirror particle hits that quantum field like in proton-antiproton annihilation that thing will cause the quantum version of the electric arc. That thing is one of the most powerful reactions in nature.
()https://www.bbc.com/news/56643677
()https://physicsworld.com/a/neutron-experiment-tightens-the-net-around-possible-fifth-force/
()https://en.wikipedia.org/wiki/Fifth_force
()https://en.wikipedia.org/wiki/Graviton
()https://en.wikipedia.org/wiki/Standard_Model
Images()https://en.wikipedia.org/wiki/Standard_Model
()https://kimmoswritings.blogspot.com/
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