If you push a ball up a hill, and then let it roll down the other side, is the final energy of the ball higher or lower than the initial state? It could be either, depending on whether the bottom of the hill is higher or lower on the other side. In either case, the simple description "charging" is inadequate to describe the essential physical process.

Finding a single word is tough, but a phrase can do. How about "induced alignment"?

I'm pretty sure the final magnetised state has to be higher. If you multiply flux density and MMF together, the product has units of energy. The charger transfers energy to the magnet, and the charged magnet has some energy that the uncharged one didn't.

Maybe you could argue that this energy was already in the material and aligning the domains just made it visible from outside.

You would have to look at the physics in detail to be sure. But the point is, higher or lower, the process is very different than just dumping charge into a capacitor. You have to use a field to line up the domains so that the system can drop into a local minimum in energy. Does it really matter to an intuitive understanding the process whether it is also a global minimum also?

Well, when you dump charge into a capacitor, the electric field aligns polarised molecules in the dielectric, storing more energy than if the dielectric were air. It's tempting to see this as the dual of the magnetic "charging" process.

Surprisingly enough, I seem to be enjoying following this thread. However, it can't help but remind me of the immortal Chris Stevens quote from the 80's TV show Northern Exposure; "My student came to me with a desire to know the time and I told her how to build a watch."

Well, how can you truly know the time if you don't understand how a watch works? And what better way to understand than building one?

Storing energy in the molecules of the dielectric is simple: you can just think of it as stretching a spring in each of many little mechanical systems operating independently; that is, there is an increase in the average distance between the positive and negative charges.

From Wikipedia (Dielectric):
Note that the polarization (separating the positive and negative charges) is essential, but the molecules only become aligned in some materials. The energy comes out as the external field is lowered as the capacitor discharges.

There is a lot more to it than that in the magnetic case. It takes energy to align some or all of the domains (composed of groups of atoms or molecules already aligned) with the magnetic field, but then they interact, resulting in a lowering of the energy, and then it takes energy to kick them out of alignment. Different process altogether; there are no magnetic monopoles, so no magnetic charge gets separated. The process is just about alignment and dropping into a lower energy state when it is achieved. There is no easy way to understand it in detail without quantum mechanics.

I have an '83 telecaster bridge pickup that I think has a break in one of the leads, at least that's what my multimeter tells me. I do not plan on trying to fix it, does anyone want it?