107 downloads
 

This is a (mostly) scientificaly accurate prediction of what the Juno system will be like 5 billion years from the foundation of Simple aerospace.inc. Juno puffed up into a red giant, causing all the planets to heat up quite a bit. Because of this, the citizens of Droo were forced to move outward, first to cylero, then to Tydos. They built a shell world around Tydos to accomidate their huge population of a few trillion. (See Isaaic Arthur’s video on shell worlds) At some point, an interstellar black hole passed through the system, greatly disrupting Vulco’s orbit, and because I’m too lazy to change all the planets into their “old” form, we’ll say that it also ejected Urados from the system. A small rocky planet was captured into the stystem by Tydos, and during the capture, Tydos stole its moon. Over time, some moons were ejected from their systems, and one got pulled within the Roche limit and got turned into a ring system. It is advisable to launch from the runway (Launch Facility B) on Miros using a spaceplane or dropping a rocket from an aircraft, because the atmosphere is so tall that a normal rocket would have to push through all that air.

GENERAL INFO

  • Created On: iOS
  • Game Version: 0.9.616.1

CELESTIAL BODIES

Name Parent Radius Surface Gravity Apoapsis Periapsis
Old Juno 3,561.0 Mm 0.2 m/s - -
Old Sergeaa Old Juno 1,036 km 7.0 m/s 9,751.0 Mm 7,605.1 Mm
Old Droo Old Juno 1,274 km 9.8 m/s 14,890.5 Mm 14,860.7 Mm
Luna Old Juno 350 km 1.6 m/s 15,606.6 Mm 15,575.4 Mm
T.T. Old Juno 23 km 0.4 m/s 15,781.6 Mm 15,750.1 Mm
Herma Old Juno 23 km 0.4 m/s 22,284.9 Mm 22,240.4 Mm
Old Cylero Old Juno 678 km 7.0 m/s 24,026.8 Mm 23,561.9 Mm
Old Vulco Old Juno 635 km 6.9 m/s 64,058.9 Mm 5,881.1 Mm
Moori Old Juno 242 km 0.9 m/s 73,850.4 Mm 45,106.6 Mm
Tydos shell world Old Juno 25,098 km 7.8 m/s 78,707.6 Mm 77,950.6 Mm
Moorinita Tydos shell world 17 km 0.3 m/s 247.8 Mm 126.8 Mm
Old Miros Tydos shell world 113 km 0.6 m/s 1,673.5 Mm 1,670.2 Mm

1 Comment

3 Upvotes

Log in in to upvote this post.