It occurs to me that the uncharged electron, in RS2, is a cosmic particle--a rotating unit of space in the space region. As such, like the c-neutrino counterpart, it should also move faster-than-light. That is, faster than a photon being carried by the progression of the natural reference system.
Consider: the electron is just "additional space" at a unit-speed location on the natural reference system. The photon is locked on to that location and is carried by it. Therefore, the electron will cover "more space" in the same amount of time than a photon will--it will appear to move faster-than-light.
Calculations: The electric rotation occupies 1 of the 128 possible orientations of the space region, which is then distributed over 3 dimensions. The location is moving at the speed of light (1), so the observed speed of the uncharged electron would be:
or about 299,792,601 m/s, or 143 m/s faster than the speed of light, in a vacuum.
However, as electric current, the uncharged electron passes through the temporal rotation of the atom, which adds considerable TIME to the motion, so this FTL activity is not detected electronically.
Electrons Moving Faster-Than-Light
Electrons Moving Faster-Than-Light
Every dogma has its day...