Sometimes, gravitation is described as a river. The energy field that travels to the particle can be the Higgs field. The base energy field in the universe. When a particle spins and binds energy to it. Outside energy tries to fill that space, and it transports particles with it, like water transports trees.
If we describe macro gravity as the effect that pulls objects. Like planets together. And quantum gravity is the thing that pulls things like quarks together, along with the strong nuclear interaction. In this model, strong nuclear interaction forms between spinning quarks. When quarks spin, they form a quantum tornado from their spin pole. If those spin poles and those quantum tornadoes turn to another quark, this thing can form the quantum bond between quarks. There are a couple of things that this thing requires.
When quarks spin, the receiving particle must be at a lower energy level so that energy can travel from the dominating particle to the receiving particle. This is why protons have two up and one down quark. Neutron has two down and one up quark. Three homogenous quarks cannot form protons and neutrons. If the energy level between those particles is the same.
That causes a shortcut between them. In strong nuclear interaction, the gluon starts to travel in the quantum tornado, or quantum channel. In this model, a gluon travels from a higher-energy quark to a lower-energy quark in the quantum tornado. That forms the suck effect that keeps those particles together. Or in another version. The gluon is in a static position between quarks, and then it forms those quantum tornadoes between those quarks.
Because energy travels from down quarks to up quarks, that thing acts like glue that glues those particles together. This is why the strong nuclear interaction transporter particle is called a gluon. Gluon travels between quarks. The down quark is at a higher energy level than the up quark. The down quark is a heavy particle, and one of the reasons for that could be the spin of the particle.
So. Strong nuclear interaction. It happens between a quark and a gluon, not between two quarks. A gluon is a massless particle, similar to a photon. When a gluon travels between those quarks, it interacts with another quark, which is on a lower energy level than the transmitting particle. When that gluon impacts the receiving particle, it sends a quantum pressure wave.
Because the neutron has two down and one up quark, energy travels to the single up quark. That means it sends energy impulses through neutrons. And sooner or later, those energy impulses destroy the neutron. One of the reasons for that is that. The energy level in the universe decreases. When energy impulses travel out from quarks, they have a stronger effect. And the difference between energy levels is the thing. That breaks the neutron.
In proton energy travels into two up quarks. This means the energy wave away from those quarks is slower and smoother. There is also more space where energy can go than there is in neutrons. This means that nobody has seen proton decay yet.
And then into the quantum gravitation. It’s possible that quantum gravitation forms when quantum bonds between quarks and gluons start to bind energy. This effect causes a situation. That is the energy level in the outer shell of the quantum whirl that connects those quarks to the gluon. If we think that the spin of gluons forms the quantum gravity. When a gluon spins, it binds energy, and then other energy from the quantum field tries to fill that hole. This causes an effect in which the gluon sends a wave movement through that quantum whirl.
This whirl is like a tornado. The inner side of it pulls particles together. But its shell pushes particles away from each other. This raises a question. About the gravity. Could the strong nuclear interaction be the same thing as gravity or quantum gravity? If we think that the particle that spins binds the energy field into it. We can say that gravity could be an effect. Those forms. When the so-called Higgs field travels to those spinning particles. The field. That could make this the Higgs field. As I wrote at the beginning of this text.
https://en.wikipedia.org/wiki/Down_quark
https://en.wikipedia.org/wiki/Electromagnetism
https://en.wikipedia.org/wiki/Gravity
https://en.wikipedia.org/wiki/Neutron
https://en.wikipedia.org/wiki/Photon
https://en.wikipedia.org/wiki/Proton
https://en.wikipedia.org/wiki/Standard_Model
https://en.wikipedia.org/wiki/Strong_interaction
https://en.wikipedia.org/wiki/Up_quark
https://en.wikipedia.org/wiki/Weak_interaction
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