From what I remember, most (all?) of the heat in the atmosphere, or at least in the troposphere, comes from the ground, with convection carrying heat into the upper atmosphere.
Looking at my temperature graph from my weather station in my backyard, overnight the temp dropped about 1 Freedom Unit per hour. So at the absolute quickest, and assuming an average surface temperature of 60 F when the sun vanishes, here’s what I have
| Atmospheric gas | melting point (F) | hours until gas begins condensing | days until gas begins condensing |
|---|---|---|---|
| water | 32 | 28 | 1.166666667 |
| CO2 | -70 | 130 | 5.416666667 |
| argon | -307 | 367 | 15.29166667 |
| N2 | -346 | 406 | 16.91666667 |
| O2 | -361 | 421 | 17.54166667 |
This is likely way too fast, as I believe the colder you are, the less heat you lose. Also, melting/boiling points depend on the surrounding pressure, which will get effected by the other gases precipitating. 70 below isn’t unheard of, and the coldest temp ever reached was -128 in Antarctica.
What do you think. IDK I’m le tired.
Yeah but I want this community to have more content.
When I’m not running on fumes I should probably look up radiative cooling. Some quick googling says it would take a week for the ocean surface to start freezing, and be -100F by a month or so. But this is for Earth. A terraformed dwarf planet would probably take much less time.