>>11918989OP here.
It's clearly the rotational movement of electrical possibility. Have people not figured this out yet? It's what happens when an electron is moving. It "seeks out" a new home (or something to that effect). When it's moving through a conductor, it creates a counter-clockwise magnetic force, what I'm referring to as "possibility". If you could look at it on a small enough scale and with the right equipment, it might look like a rotating version of pic related.
Wrap that into a coil and the rotational forces link together and the rotational motion of these combined forces make it look like magnetism is shooting out of one end of the electromagnet and getting sucked into the other end. Really it's all just rotating magnetic potential (or magnetic field, I think is the proper term).
I'm just trying to figure out how this works in a stationary magnet. I would guess that the metal crystals are arranged in such a way that electrons are bouncing out of their valence shells and knocking out / replacing the electrons next to them and this whole see of electrons is swirling around inside the magnet.
