A positive ion can be viewed as a hook covered ball. When it moves through space, it latches on to the hoop covered orbs of zero-point photons. A positive ion moving from right to left sets the negative orbs of the zero-point photons spinning counter-clockwise as viewed from the magnetic north.
The positive orbs spin clockwise.
Positive ion producing magnetism in
photons by setting their negative orbs spinning
Zero-point photons moving away from the photon after a bounce, are all polarized and spinning. A circular magnetic field radiates out from the moving ion.
Conversely, a negative ion moving from left to right, will set the positive orbs of zero-point photons spinning in the clockwise direction as viewed from the magnetic north. We get zero-point photons spinning with their negative orbs going counter-clockwise and their positive orbs going clockwise.
Negative ion producing magnetism in
photons by setting their positive orbs spinning
The photons spin the same way in both cases. The
magnetic field developed around the two ions are identical.
The two orb model of the photon behaves precisely the way it has to in order to model real world magnetism around charges in motion.
The two orb model of the photon behaves precisely the way it has to in order to model real world magnetism around charges in motion.
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