© Lloyd

1. (Three Problems Solved Mechanically)
2. The reason we have a right-hand rule is that the charge field is right-handed itself.
3. [I]n my field, the charge itself has charge.
4. The first charge is the emission of the photons [which are the charge field].
5. Charge energy is transferred by the linear motion of these photons.
6. The second charge is the spin of these photons, since it can either be CW or CCW.
7. The entire and defining difference between matter and anti-matter is that [] matter emits photons upside-up, and anti-matter emits photons upside-down.
8. Emitted photons are always spinning, so anti-matter emits photons that are spinning "the wrong way."
9. Now, the Earth contains both matter and anti-matter, but it contains a preponderance of matter.
10. Contrary to popular opinion, matter and anti-matter do not annihilate one another when they meet.
11. Say you start with an anti-proton.
12. It collides with a proton and loses all four spins.
13. At this point it is like a non-spinning electron [which] I have shown [] is nine times smaller than an electron at rest with axial spin [].
14. A non-spinning electron is also invisible to normal detection, since ionization detectors and other detectors cannot detect non-spinning quanta.
15. They have no velocity relative to the field and make no tracks.
16. But very soon these quanta are bumped by other quanta, and they gain both velocity and spin in this way.
17. As I have shown with my stacked spins, you can build either a proton or an anti-proton from an electron.
18. Just as you can turn a neutron into a proton, simply by reversing the z-spin, you can turn a proton into an anti-proton simply by reversing the y-spin.
19. [Y]ou can do it by building the anti-proton from an electron or meson.
20. You simply have to hit it with the right fields in the right order.
21. But my point is, you do not have to build an anti-proton from a positron.
22. (Unifying the Electron and Proton)
23. The electron must be moving to express a wave. If the electron begins moving and expresses a wave, of course it must have a second spin. It must get this spin from collision, we assume. And this second spin will add to the energy and therefore the apparent mass of the electron. A moving electron will become a sort of stable meson. As you can see from the math above, we can predict that it will have an energy about 7.2 times (65/9) that of the electron at rest. So in the first instance, the moving electron is not gaining energy only from Relativity. It is primarily gaining energy from x-spin.
24. (Unifying the Photon with other quanta)
25. [T]he photon is simply another energy level of the quantum
26. [H]ow can a photon with seven or eight spins become an electron and start emitting large numbers of photons?
27. [T]he z-spin is orthogonal to the linear motion, which allows it to act like a scoop or an intake valve. Photons with only axial spin cannot resist this intake, and they are temporarily absorbed by the photon with z-spin. Intake of small photons begins to slow the large photon and it begins to turn into an electron. It gains mass and loses velocity.
28. [P]hoton wind is what we call electricity. The spin of the photon wind is what we call magnetism.