Edit | Leave a Comment | Favorite
User Comments:
Anonymous commented at 2010-02-18 17:52:26 » #228155
There wouldn't be enough water condensation to allow water falls to generate that much output. So, this is apparently some long forgotten planet that had a civilization on it, and that was a massive big-ass building of some type which has been over-grown with plant-life. But, the water facilities in it still pump, creating the water falls.
Either that...or it's magic.
3 Points Flag
There wouldn't be enough water condensation to allow water falls to generate that much output. So, this is apparently some long forgotten planet that had a civilization on it, and that was a massive big-ass building of some type which has been over-grown with plant-life. But, the water facilities in it still pump, creating the water falls.
Either that...or it's magic.
3 Points Flag
Julian_K._Spire commented at 2010-02-19 00:11:13 » #228519
Firstly, please stop thinking in Earth-only terminology. You're embarrassing yourself. A planet such as this is perfectly capable of having geysers or underground aquifers that can produce the water. At their source, there would be plenty of pressure to generate electricity or energy via a waterwheel.
More likely, though, this is a planet similar to Velis or Chindrus. The composition of the trees in the foreground suggest an atmosphere with at least thirty percent xenon, and the material in the rocks suggests argon. A likely estimate would be argon, xenon and helium as primary atmospheric components with traces of methane or ammonia as secondary.
-JKS
8 Points Flag
Firstly, please stop thinking in Earth-only terminology. You're embarrassing yourself. A planet such as this is perfectly capable of having geysers or underground aquifers that can produce the water. At their source, there would be plenty of pressure to generate electricity or energy via a waterwheel.
More likely, though, this is a planet similar to Velis or Chindrus. The composition of the trees in the foreground suggest an atmosphere with at least thirty percent xenon, and the material in the rocks suggests argon. A likely estimate would be argon, xenon and helium as primary atmospheric components with traces of methane or ammonia as secondary.
-JKS
8 Points Flag
1