I realised one thing.
Whereas studying the core rulebook I at all times assumed that the related distance for leaping right into a system was the diameter of the techniques star occasions 100, and I received the impression that it could take a couple of days to get from protected soar distance to the spaceport. Nevertheless, whereas I used to be performing some calculations based mostly on @paul-gilfedder nice reply to this query I realised that Earth is orbiting exterior of our stars diameter occasions 100.
I had been assuming that if Earth had a spaceport it could take 68h with a G1 drive to get from the spaceport to a protected soar distance, and that that was fairly commonplace for any photo voltaic system. Nevertheless, if I perceive this appropriately it ought to take solely 6h 20min to get from the soar level to Earths potential starport since it’s only 1.276.000 km and never 140.000.000 that I assumed.
After this longwinded intro I get to my query:
When the supply materials talks a few system and it is principal planet/starport is there any data included that lets me know what the journey time from protected soar distance to the spaceport is, or a option to infer it from the UPW? Makes an enormous distinction if the planets orbit is inside our exterior of the celebs 100D. As an example protected soar distance to Venus could be 32.000.000 km, which is 25 occasions that of Earth, due to this.