RM:AO:Affectance Compression - "Magnetism"

Every atom represents spinning electrons around a nucleus. As they spin, they cause a compression of the affectance field of which they are made. This is more easily thought of today as a “compression of the electric field” that emanates as a spiraling toroid of flux from every electron spinning. A magnetic field is made of the waves of Affectance Compression - more affecting/energy in a smaller physical volume and traveling through space. And greater magnetic flux density means greater affectance packed into a smaller space; greater “affectance density”, more “energy density”.

Most types of atoms have such complex electron paths, that the flux from each electron interferes with the flux from other, resulting in very low overall magnetic effect. But the ferrous metal atoms, such as iron, have more synchronized electron orbits that allow for each atom to have a more significant flux extending beyond the immediate atom.

Ferrous vs Nonferrous.png
Obviously magnets are made of the more ferrous materials. But the atoms within the material do not just naturally align themselves to the optimum magnetic situation. Most of the atoms are situated upside down from their neighbors, partially cancelling each other. For the larger macroscopic magnet to be realized, more atoms must be aligned than unaligned. This happens in small domains within a magnetic material. Each domain is not entirely aligned with the others either. And the strength of the overall magnet depends upon getting as many atoms and domains aligned.

Atomic Flux Alignment.png
Neodymium magnets are very strong because they are made to have their atoms very largely aligned. Most ceramic and natural loadstone magnets are not so naturally aligned.

But those magnetic flux lines actually represent what is a spiraling compression wave emanating from each atom. The compression occurs because there is incentive for parts of the field to propagate faster than light, which it can’t do, thus it compresses into a smaller space until it has more time. But it doesn’t find more time until it is very far away from the magnet.

Spiraling Compression Field.png
That is the part that they don’t tell you in your physics class.

One “pole” of the compression field is propagating upward and the other is traveling downward, both spiraling clockwise. If the atom is turned upside down, both upward and downward spirals are counterclockwise. That is why you have polarity in magnets.

When a clockwise spiral encounters a clockwise rotating electron, the electron migrates into the oncoming field. When a counter-clockwise spiral encounters a clockwise rotating electron, the electron migrates away from the field.

That is why magnets attract and repel.

Why it is that orbiting electrons, and thus their associated atoms, are attracted or repelled by spiraling compression waves is another longer story called “Affectance Induction” and is the exact same cause for electromagnetic coil induced currents and fluxes.