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In lugnet.space, Kyle D. Jackson writes:
> In lugnet.space, Jason J. Railton writes:
> > overheating, the only way to disperse heat in space is by radiating it -
> > there's nothing to conduct it away, and I don't know enough to say how you'd
> > improve a radiating heat exchanger. I can suggest that you would design
>
> I guess it would be based on the surface material properties. Different
> materials have different thermal emissivities, so picking one with a
> high value would be better for cooling directly to space. Of course
> these materials may be impossible to use for some reason or other, but,
> whatever, that's for somebody else to figure out ;]
>
>
> > came to a dead stop, it would fall to Earth. As would the moon, if it came
> > to a halt in its orbit.
>
> Sweet! That would be *so cool*! Imagine sitting out on the deck
> looking up at the full moon, and all of a sudden it starts falling
> towards you. If we ignore the gravitational damage to the earth
> (tides, crust stresses, etc) and the fact that the earth is still
> rotating, how long would you get to watch the moon before it landed
> on you? The first person to answer will get a cookie(*)!
>
> (*) DISCLAIMER: cookie offer will not be honoured.
>
>
> KDJ
> _______________________________________
> LUGNETer #203, Windsor, Ontario, Canada
What material would serve the best purpose for cooling off directly in space
and would this material work in space to prevent the plasma that powers my
space craft from overheating and making my space craft explode into a
million pieces?
Jesse Long
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Message is in Reply To:
 | | Re: Couldn't resist
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| (...) I guess it would be based on the surface material properties. Different materials have different thermal emissivities, so picking one with a high value would be better for cooling directly to space. Of course these materials may be impossible (...) (23 years ago, 28-Jun-01, to lugnet.space, lugnet.off-topic.geek)
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