If we place a bar magnet under a sheet of paper, and sprinkle iron filings on top of it, we can see how this fanning out continues in all directions so that we get a pattern that connects the north pole to the south pole.
Magnetic field lines illustrated by iron
filings on paper above a magnet.
By Newton Henry Black - Newton Henry
Black, Harvey N. Davis (1913) Practical Physics, The MacMillan Co.,
USA, p. 242, fig. 200, Public Domain,
https://commons.wikimedia.org/w/index.php?curid=73846
Polarized photons stream out from the north and the south pole of magnets in equal measure. However, there is no overall flow. All that is happening is that the polarized photons arrange themselves in the most efficient manner possible. Magnets polarize zero-point photons which in turn polarize all photons in the entire space around the magnet.
If two magnets are placed so that their north poles or south poles face each other, polarized photons from the magnets will meet head on in a non-abrasive collision. Since the colliding orbs are of the same charge, there is no latching onto each other. There are no hard turns, so the photons will tend to stay in the field. The result is a high pressure in the aether between the magnets. We have a repelling force.
Non-abrasive collisions between photons produce high pressure
Abrasive collisions between photons
produce low pressure
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