[gr2020]

Is that true? A superconductor magnet needs to be cooled down to temperature (say 4K), but does it generate heat once operating? Seems like heat would come from resistance in the coil, but this resistance is zero when at operating temperature.

[ars]

It would consume power by fighting against incoming particles. This would end up as heat inside it.

[rlpb]

A permanent magnet also fights against incoming particles, and doesn't seem to consume any energy. Why would an electromagnet be any different?

Edit: the permanent magnet will feel a force applied against it in the opposite direction, of course. In space, that's have to be countered by rockets though, not electrically in the current running through the superconductor, right?

[ars]

> Why would an electromagnet be any different?

Because the incoming electrically charged particle induces current in the coils of the electromagnet.

A permanent magnet does not have to deal with that - even if there is current it doesn't affect the magnetism in a permanent way.

Think about an electric solenoid: A stationary electromagnet does not consume power, a moving one does as it acts on the external magnets.

[tbabb]

Space is not cold, at least in the inner solar system. To say nothing of internal resistance, however small, sunlight would fall on it and warm it up.