quarks and gluons

If a quark is a spot in our 3 d space a very tiny spot that is connected to the other dimensions or more specifically

some of the which are described by the various forces which are directions in space the gluon is one and most important when two quarks get close together there is entanglement of the gluon forces and increase each of the quarks provides force that binds the whole together and the strong force (gluon) provides the force that holds he nucle

us together but for up and down the charge repulsion will overcome the gluon force unless the mixture is of up and down quarks most easily seen in the proton which is two up and one down for a charge of 1 versus 4/3 and the neutron which is two downs and on up for zero charge all nucleus can be considered a grouping of protons and neutrons but in truth all of them have entangled gluons. Noting that there are more neutrons and therefor less charge as the atomic number grows we can determine that there is a very small size limit were the entanglement works. Things to consider how is the electron and the quark connected Look at the various types of radiation Look at N gamma photon and the various How are a photon and the rest connected and many other thinks Question neutrons are DDU and have a half life of 12 seconds in the wild but are essentially stable in most nucleus. When separate they eject an electron and an neutrino I was looking at the Feynman arts and charts I see other ways that a neutron can decay non of them substantially different. So the questions is why are neutrons stable when combined with one or more protons. (in the proper ratio.) Neutrons to atomic number goes from 50 percent in helium to 70 percent in potassium. Using a so this implies that there is some sort of inter play between the neutrons and protons. So atoms are actually made up of quarks not neutrons and protons but quarks. Though as I think more I realize that there are neutrons and protons with the Gluons dancing between them and radiation being when the gluon configuration causes an atom with too many neutrons or protons to eject a particle in such a way as to make the atom more stable. Questions why do atoms have an integer number of charge? not some number of X/3 charges or why don't we have 3 times as many elements, probably something to do with the electron or partial charge instability and or that neutrons and protons exist in the nucleus but are swapping quarks and there is an entanglement of the gluons I dreamed last night about quarks and gluons. The quarks were places in space that connected to Gluons which were actually the same point in a specific dimension or directions. The distances in the dimension caused the range that the force worked in and the point energy * the distance vertically was the force applied to the point source in normal space. So Gluons were short and power full. The Weak nuclear forces were some longer and much weaker The Photon, electron, and gravitational were the depth of the universe and weakest at the normal space level but quite power full at the point source. Gravity was the deepest but most powerful at the core. I dreamed of many different wells like the gravity wells we see. The gluon was short and very narrow across the tops with the event horizon a very short radius curve. Weak forces deeper and longer radios yet still pretty narrow. Excetera until you get to gravity which is very deep and very wide with a genital event horizon. So how does this make black holes. Well maybe as the little horizons get stacked one on an other they get stronger and stronger until they pull every thing to the ground state IE out of the universe that we see and feel to the base of the core The Gluon must have some force that keeps them from ever collapsing quarks to the ground state. Perhaps the charge forces a respectful distance and since the range is so small they never are able to stack up as you can with gravity. More though needed.