Talk:Twilight

Problem
I just realized that the described properties of Twilight make no sense. The planet is tidally locked, that's fine, but it is in orbit around a gas giant planet, not a star. Even if Twilight were in an orbit perpendicular to the system ecliptic a quarter of Twilight that doesn't face Gigaball would be exposed to the star (and that quarter would change gradually through Gigaball's year.

If Twilight were in an orbit more or less lined up with the system ecliptic then Twilight would only receive reflected light from Gigaball through half of its orbit, during the other half Gigaball would block any light from reaching Twilight. However, even during the period where on Gigaball's daylight side the side facing away from Gigaball would be directly exposed to the star.

Also, if the GC universe physics are supposed to match our own as far as normal physics goes then it should be noted that Jupiter is about as physically large as gas giant planets get. Adding more mass to a Jupiter mass body does not result in increased volume, they simply get more dense until they become stars.

SoronelHaetir (talk) 00:52, March 10, 2014 (UTC)