I've updated the Sol system, adding the dwarf planets and correcting the density, gravity, mass and escape velocity for all the major moons.
The new dwarf planets added are Ceres, Eris, Haumea, Makemake, Orcus, Quaoar and Sedna. As they have such long orbital periods I have used their current distance from the Sun rather than their average distance. Pluto is also now classed as a dwarf planet. Those planets and any planets that used to be listed as "Chunks" will now be listed as dwarf planets in the F9 view. I considered adding the moons for the new dwarf planets but the data on them is extremely limited so I haven't for the moment. I'll probably come back and tackle that at some point though.
There were some significant mistakes in the physical data for many of the existing moons. In fact, some were so wrong I can't imagine where I got the original information. I have used the Wikipaedia entry for each moon to source the updated information. This will result in some changes in terms of possible colonization as Titan's gravity has dropped considerably.
After Mars/Mercury at 0.38g, the highest gravity can be found on:
Io: 0.183
Luna: 0.165
Ganymede: 0.146
Titan: 0.140
Europa: 0.134
Callisto: 0.126
Eris: 0.084
Triton: 0.079
Pluto: 0.067
Haumea: 0.044
Sedna: 0.043
Makemake: 0.041
Titania: 0.039
Quaoar: 0.038
Oberon: 0.035
To make life a little more interesting, I am going to widen the range of racial gravity tolerances possible for a new race. A random race will have from 50% to 90%. Humans will start with 90%, which makes the Moon, Titan and the Galilean moons all possible colony sites and will widen human options in other systems. I've also halved the "Genome Sequence: Base Gravity" research costs.
In the past the mean surface temperature of the Earth in Aurora has been 22C. I've now changed it to the correct value of 14C. I've also increased the base human temperature range from 22C to 24C, giving a range of -10C to 38C, which seems reasonable in terms of the environments in which humans live in Earth. -10C might be a little on the chilly side but we can survive reasonably well without space-age infrastructure to assist.
Finally, I have updated the Known System data in Aurora with the work I did for Newtonian Aurora. There are now 4250 Known Systems in the database, including all known systems within 100 LY of Sol.
Steve