> What’s the mechanism that makes them actually move?

In chemistry, it is usually a redox reaction inside the battery, and a mix of magnetism, electronegativity, and conductivity through the rest of the system.

In a [redox reaction](https://en.wikipedia.org/wiki/Redox) one chemical wants to give up an electron, and another chemical wants to gain an electron. In a lead acid battery, you might have lead oxide and sulfuric acid. The lead really wants to form lead sulfate and will happily give up electrons to do it, engaging in a redox reaction. The acid really wants to break apart and form water, and will accept electrons to do it. If you push electricity back into the system you can reverse the reaction to charge the battery back up. Electrons want to flow between them to make the reaction take place.

There are many compounds you could use to make a redox reaction, but certain combinations produce a long, steady reaction we can harness in an electrical cell. A cluster of chemicals forms on one side of the battery cell, and a cluster of other chemicals forms on the other side of the battery cell, and over time the two react and use the chemicals between the two.

So for the motion, the battery has a chemical reaction going on in the middle and that makes a charge (magnetic or electric, depending on how you look at it) with a positive side and a negative side. As above, electrons want to flow between them to make the reaction take place. Wires provide an easy path to move from one side to the other. Metal conducts electricity, easily taking and releasing electrons much like a bunch of marbles stuffed in a tube. You can put an electron in one side of a metal wire and it pushes the electrons on the next one, which pushes the next one, which pushes the next one, until one pops out the other side.

Components along the wire take advantage of those electrons moving through the metal pipe, they might use it to make a motor turn, or to generate heat, or to make light, or to run an electrical switch or transistor, or something else. Electronics are often explained in simple forms using the model of water moving through a system in a similar way.