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You want to escape retrograde to the Mun ("behind" it), parrallel to its trajectory. keep burning prograde until you get a Kerbin apoapsis of 60k if you're patient, 30k if you want to land as soon as possible. A good way to know if your Mun escape was efficient is to look at the next predicted Kerbin apoapsis (purple Ap label).
You just have to combine your Mun escape with a reduction in your Kerbin orbital velocity, which makes you have a very lopsided orbit, with an apoapsis at the Mun's altitude but a periapsis inside Kerbin's atmosphere, and you aerobrake your apoapsis down.
Dude, it's very simple. Get into Mun orbit. Then any escape attempt will place you first in an orbit around Kerbin and then around Kerbol itself. So, you only have to get a moderate escape from Mun orbit and almost surely you'll end orbiting Kerbin.
Mun landing: Starting at 1, it will increase as you burn fuel (local Mun TWR) The TWRs you're using are very high, your engine mass is taking a large chunk out of your ∆v. Check how much more ∆v you start with if you packed yours down with enough fuel to match my TWRs.
4 lip 2024 · Mun, also known as the Mun and sometimes written as Mün, is a relatively large moon orbiting Kerbin. It can be thought of as an analogue to Earth's own moon, which frequently is simply called “ the Moon ” (Latin: Luna ).
29 kwi 2014 · Escape from Minmus (and to a lesser extent, Mun) is virtually free due to low gravity, no atmosphere, and extremely low orbits, and if you escape to retrograde, that puts you on a close pass to Kerbin, where you can do a prograde burn at the periapse which will get you (due to the already elongated orbit), a virtually free kerbin escape as well ...
13 sie 2013 · Escape velocity is just over 800 m/s, so most rockets with more than 850 m/s delta-V will be able to leave Mun's SOI, and thus go virtually infinitely high. A comparison as you suggest is impossible, since Kerbin an Mun differ vastly in size and atmosphere.
