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1. typ+(OP)[view] [source] 2026-02-04 01:25:09
Assuming that we place an iron ball (ideal sphere-shaped and thermal conductivity) on the SSO (solar synchronous orbit), how hot can the object be?

Given the solar constant 1361 W/m^2, you can calculate the temperature range based on the emissivity and absorptivity. With the right shape and “color”, the equilibrium temperature can be cooler than most people thought.

I suppose that a space data center powered 100% by solar is no different than this iron ball in principle.

replies(2): >>eldenr+Ae >>adastr+Gq
2. eldenr+Ae[view] [source] 2026-02-04 03:19:05
>>typ+(OP)
The ideal shape would be a shaded, flat panel perpendicular to the sun right?
replies(1): >>typ+Rr
3. adastr+Gq[view] [source] 2026-02-04 05:19:17
>>typ+(OP)
About 120 degC.
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4. typ+Rr[view] [source] [discussion] 2026-02-04 05:34:36
>>eldenr+Ae
That should be better than a sphere. Though I imagine there could be some fancier 3D geometry designs.

Even for a simple sphere, if we give it different surface roughnesses on the sun-facing side and the "night" side, it can have dramatically different emissivity.

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