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sticklebat t1_j9y9092 wrote

> Given enough time, in theory, the entire mass of the magnet would eventually be irradiated outward as light energy.

I don’t think this would happen. I think the spinning magnet would preferentially emit light with polarizations that would slow down the magnet’s rotation over time, until it’s no longer spinning. I think hardly any of the magnet’s mass would be converted into light in this process.

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numatter t1_j9z1zz3 wrote

Thank you for that. I was thinking in terms of Newtons 1st law of motion in a perfect vacuum (and over eons of time) and didn't consider that light itself has inertia and would affect its angular momentum as its being radiated. But, isn't it still conceivable that even down to the last atom of the magnet, there's a mathematical improbability that the spin would be zero, considering entropy? Or maybe the opposite is true, that entropy was working toward bringing the very last atom down to the lowest energy state possible, essentially converting any remaining angular momentum into light so that it can achieve the lowest energy state possible. I could see it going both ways, maybe even being in an entangled state of both outcomes until an observation is made.

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sticklebat t1_j9z3v8i wrote

Wait long enough and every system will tend toward its highest entropy and typically lowest energy state. But then we’re not really talking about the effect of the magnet’s magnetic field anymore so that’s a whole different conversation that depends on things like the stability of atoms and protons.

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