‹ Back

Atraills Knight Sanderson

09/27/2025

    Neclear force is a result of the exchange of spuons with a lumin-antilumin dynamic associated with the charge. Think of if you hold a finger over the top of a straw there will be no water exchange at the bottom unless there is allowed an exchange at the top, this creates a force in between, similiar to if you pulled the plunger on a syringe while it's nozzle is capped off. A vacuum force.
 

    If you map out a cosmological neclear force, youd be left with the vacuum of space. This spuon force being bound at astronomical distances results in a cosmological vacuum force. Though if you think of the vacuum force of neclear force, it’s potential energy, and what catalyzed this event you will find a connection to something more kinetic. It was proposed that the vacuum force is dark energy itself, but rather they have recognized the connection between the potential energy of this vacuum and the kinetic energy of dark energy. What increases vacuum force? Additional kinetic force in the form of more charged particles in a way akin to a plunger effect, or a rank 2 tensor field stretching. Dark energy being constanly expanding alines more with a stress-energy tensor field stretching causing the expansion rather than isolated events such as additional particles joining the mix.

    So the cause of neclear force while being initiated by spuon exchanges, expands with vacuum force at a rate consistent with a stress-energy tensor field stretching on the necleus (chronogamnetic stretching), unless there are an expansively increasing amount of virtual particles involved in enchanges.

 

   Neclear force, if not from spuon exchanges, would still be the case from the plunger analogy: as these quarks would then merely be creating the vacuum force by their repelling each other with no exit for the pressure to equalize due to their quantum shape. I am simply incorporating potential frameworks which could hopefully explain precisely the cause of neclear force. I think both are equally worth mentioning. Even strong nuclear force can have differing mechanics underlying it's presence. Spuon exchanges may be very hard to visualize over such distances, but a plunger effect is very easy to. The fact that gravity increases the distance density of an area shows that this distance doesn't prevent charged particles from interacting as long as their size and distance is relative. What about how hard to grasp gluon exchanges occurring over their distances would be if we were similiarly scaled to them as with space's vacuum force?