Strong Force Dynamics
are consistent with
electromagnetic construct

by
Vernon Brown
December 31, 2008

This web domain is dedicated to resolving an old idea that was popular during the early 20th century. A few years earlier James Clerk Maxwell had wrote down equations that described electromagnetic behavior. As far as I can determine it was he who first suggested that the final irreducible constituent of all physical reality is the electromagnetic field. That old idea has never been falsified and indeed, the further we look into it the more evidence we find that it is what is real in this universe.

If that is what is real, it means that everything in the universe must be composed in its entirety of electromagnetic fields alone and nothing else. There is lots of evidence that this is so. There is no evidence that it is not so. Some have said that the four forces of nature are fundamentally different and so this falsifies the concept. But this conclusion is reached by a shallow consideration of the dynamics of the forces and with a bias toward blind acceptance of Quantum Mechanics with no alternative tolerated.

Consider the dynamics of the nuclear forces. When two protons approach, there is at first an opposing force that must be overcome. When the temperature is great enough, meaning the protons approach each other with a great enough velocity, this opposing force is overcome and the proton outer bounds are breached. They then lock together via a strong nuclear force that holds them together. A proton composed of three photons trapped in resonant shells would exhibit dynamics consistent with observations. The positive charges of the outer shells would oppose each other at first. Then when the outer shells were breached, the next-to-outer shells would strongly attract the outer shells, speeding up the union. Finally the inside shells would find equalizing force inside the outer shells.

There is a strange dynamic of the strong nuclear force. It increases with distance at first when protons separate. The cause of this is evident in the model. Opposing electromagnetic forces of the inside of the outer shell and the outside of the next-to-outer shell must approach each other for this short distance. This is exactly consistent with the observed behavior of the strong nuclear interaction.

The Square-Of-The-Shells calculator has the shells numbered from one to four. Shell one is the outside shell of the Neutron. Shell two is the outside shell of the Proton. Shell three is the next to outer shell of the Proton, and shell four is the small dot in the center. The Neutron is simply a proton with one extra shell.

The attractive strong nuclear force is actually an opposing electromagnetic force between shells two and shells three. These opposing forces are brought in close proximity when the protons outer shells merge through each other. Any separation of the protons must then bring the opposing forces closer together causing an increase in force just as is observed.