The newest iteration of challenging, future career-oriented planet packs in SR2
Hey everyone! This is sort of what I've been working on for the past few days. It is quite a large pack that improves upon and completely reorganizes the stock system, erasing what you may know about some planets. In the future I hope to make this somewhat intended for use with career mode, possibly with resources on other planets and other whatnot.
I know there are no images yet.
Creslynn
A fairly small ice giant located near the outer edges of the solar system. It combines the aspects of a similar density and mass to Neptune, colors of Uranus, and rings of Saturn. It replaces Urados in the stock system although its orbit is more similar to Sarin from RJSE. The moons of Urados are moved to orbit it.
Cylero
Am I not the only one who thinks that the Juno system revamp completely wrecked Cylero? Its gravity was increased to absurdly high levels. Cylero's gravity has been nerfed in exchange for a much more forgiving atmospheric density. Niobe and Herma are still here, as they always were.
Droo
I didn't mess with Droo very much, partly because I didn't want to completely uproot the DSC and spend hours rebuilding it. Atmosphere and clouds have been improved, courtesy of domain warping changed. I don't know what I'm gonna do with Brigo, Luna, and T.T. yet.
Jastrus
One of the only moons I've finished so far, Jastrus is pretty much the same as it was, minus it being bigger. It orbits in the Jastrus Division located in Creslynn's rings.
Nebra
Nebra has been significantly buffed to make it more akin to what I believe Nebra is based off of, Laythe. Yes, I'm one of those people who's in the "Nebra is a ripoff of Laythe" school of thought, but I still think it's fun regardless. It isn't the innermost moon of Tydos no longer thanks to two new moons.
Taeh
Located smack dab in the middle of the orbits of Droo and Cylero, Taeh is sort of a stepping stone between these two worlds. It has the lowest gravity of all the terrestrial worlds due to its fairly low density.