How about Mechanisms of Metal Cooling in a Vacuum?

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Metal cools in a vacuum primarily through radiation, emitting electromagnetic waves, particularly in the infrared spectrum. Unlike in water, where heat transfer occurs via conduction and convection, a vacuum relies solely on radiation for heat dissipation. Evaporation can also contribute to cooling by removing material and carrying heat away, although this process is more about material loss than direct heat transfer. The discussion highlights that defining "cooling" can vary based on whether one considers energy loss or material removal. Ultimately, both radiation and evaporation play roles in the cooling of metal in a vacuum.
travelalfred
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If you put a piece of very hot metal in cold water the heat in the metal will transfer to the water until both are the same temperature. So the system water-metal still has the same initial energy.

So my question is how does the piece of metal cool if it is put on a perfect vacuum.

Is it electromagnetic waves that the metal emits or something like that?
 
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travelalfred said:
If you put a piece of very hot metal in cold water the heat in the metal will transfer to the water until both are the same temperature. So the system water-metal still has the same initial energy.

So my question is how does the piece of metal cool if it is put on a perfect vacuum.

Is it electromagnetic waves that the metal emits or something like that?

Same way the sun transfers its heat energy to the Earth - radiant, electromagnetic energy. A large part of such energy resides in the infrared spectrum of the EM radiation.

Zz.
 
Heat transfers via conduction, convection or radiation. Only the last is available in a perfect vacuum. Wikipedia likely has discussions on each.
 
What about sublimation? :-p
 
Borek said:
What about sublimation? :-p
You mean ablation? Or I guess evaporation.

That is the removal of the material itself, carrying away heat with it. I guess, technically, that is simply moving material around, not actually removing heat from the material.
 
I mean http://en.wikipedia.org/wiki/Sublimation_(chemistry ) - so your second guess is correct.

If I have a hot piece of metal in vacuum and it loses part of the energy by evaporating itself, I would call it part of the cooling process, just like evaporation is part of the cooling process of the tea I have on my desk. This is just semantics and it depends on what we understand by "cooling piece of metal".
 
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