Ok, this is slightly off topic, but I was wondering if this was normal or some sort of freak system:
Altair-A A7-IV Diameter: 4.5m Mass: 3.1 Luminosity: 36
Altair-A I: Colony Cost: 0.00, Temperature: 94.9, Gravity: 2.19, Orbit: 432m
Total Moons: 4
Altair-A II: Colony Cost: 1.90, Temperature: 41.1, Gravity: 0.65, Orbit: 880m
Nitrogen 96%, Carbon Dioxide 4.0%, Pressure: 0.42
Total Moons: 2
Altair-A III: Colony Cost: 1.90, Temperature: -1.2, Gravity: 1.10, Orbit: 1.60b
Nitrogen 80%, Carbon Dioxide 20.0%, Pressure: 1.22
Total Moons: 2
Altair-A IV: Temperature: -155.3, Gravity: 0.24, Orbit: 3.1b
Altair-A V: Temperature: -167.0, Gravity: 1.14, Orbit: 5.2b
Altair-A V - Moon 13: Colony Cost: 8.14, Temperature: -188.5, Gravity: 0.30, Orbit: 542k
Hydrogen 76%, Helium 17.0%, Nitrogen 7.0%, Pressure: 0.09
Total Moons: 22
Altair-A VI: Temperature: -198.6, Gravity: 0.02, Orbit: 6.3b
Altair-A VII: Temperature: -201.0, Gravity: 6.5, Orbit: 11.3b
Altair-A VII - Moon 3: Colony Cost: 8.36, Temperature: -193.6, Gravity: 0.38, Orbit: 309k
Nitrogen (F) 83%, Methane (F) 17.0%, Pressure: 0.01
Total Moons: 31
Altair-A VIII: Temperature: -212.2, Gravity: 2.33, Orbit: 15.8b
Total Moons: 10
Altair-A IX: Temperature: -219.7, Gravity: 2.96, Orbit: 20.6b
Altair-A IX - Moon 13: Colony Cost: 9.73, Temperature: -225.3, Gravity: 0.50, Orbit: 868k
Nitrogen (F) 79%, Methane (F) 21.0%, Pressure: 0.01
Altair-A IX - Moon 33: Colony Cost: 9.20, Temperature: -213.1, Gravity: 0.39, Orbit: 16.4m
Nitrogen (F) 84%, Methane (F) 16.0%, Pressure: 0.01
Total Moons: 35
Altair-A X: Temperature: -235.3, Gravity: 0.31, Orbit: 41b
Total Moons: 10
Altair-A XI: Temperature: -244.9, Gravity: 19.1, Orbit: 74b
Total Moons: 12
Altair-A XV: Temperature: -263.7, Gravity: 9.5, Orbit: 672b
Total Moons: 14
Altair-A XVI: Colony Cost: 11.39, Temperature: -263.8, Gravity: 0.64, Orbit: 874b
Hydrogen (F) 81%, Helium 19.0%, Pressure: 0.08
Total Moons: 1
Jump Points
1) Kruger 60: Distance: 1.29b Bearing: 50
The bit I'm wondering about is the planets with orbital distances of of 672b km and 874b km. The latter is about 8 times further out than the aphelion of even the longest distance comet in the system. I have to zoom so far out just to see them that the scale in the top left moves into fractions of a light year.
Edit: At 58,200km/s, it's going to take my geosurvey ship 176 days to reach the outer planets from where it is now. =.=