For stationary protons and electrons, the change in direction and spin is completely random. There is no net effect. But for a charged particle in motion, there is a net effect. Zero-point photons will tend to spin in parallel with the moving particle. Spinning zero-point photons are what we observe as magnetic fields around electrical currents.
However, for this to happen in accordance to Ampère's right-hand grip rule photons cannot be any random configuration of six charged quanta. Their structure must be of a very specific kind.
But their behaviour must be that of two counter-spinning orbs.
Two orb model of the photon
The six charged quanta making up the photon must be modelled as two orbs of opposite charge, one spinning one way and the other spinning the other way at the exact same rate.
If one orb latches onto a charged particle, thus changing its spin, the other orb changes its spin with an exact and opposite amount.
With this model of the photon, Ampère's right-hand grip rule becomes relatively easy to explain.
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