![space flight simulator designs space flight simulator designs](https://i.imgur.com/3FQCU7E.png)
Mars has a low gravity, so be careful to bounce off again. After the second stage is separated, you can now aerobrake/hit the surface of Mars. If it is covered in fairings, separate the fairings before you separate the 2nd stage. The third stage is capable of landing on Mars (if possible). Separate and recover (if possible) the second stage from the rest of the stages. Wait the rocket to encounter Mars, and burn at near periapsis or at the periapsis to get into orbit. At the transfer point, burn the rocket again to encounter Mars. Set Mars as your target planet, and wait until the rocket is in the transfer point. At near apogee or at apogee, burn the rocket into orbit. The 2nd stage is capable of going to Mars and LEO. When the first stage has depleted its fuel, separate it to reduce the weight of the rocket. Separate the solid rocket boosters when they run out of fuel. Turn 5 degrees at 500 meters, turn 10 degrees at 1 kilometers, turn 20 degrees at 2.5 kilometers, 30° at 5 kilometers, 45° at 7.5 kilometers, 60° on 10 kilometers, and 75° on 15 kilometers. Titan/ Hawk Engine can lift the rocket off to the Kármán Line. The first stage is capable of going to Low Earth Orbit. To go to Mars, you need to construct a rocket that has 4 stages (and solid rocket boosters). Each of them have 2 hawk engines.Ī reconstruction of the SpaceX Starship, a real rocket intended for colonising Mars.
![space flight simulator designs space flight simulator designs](https://static.wikia.nocookie.net/spaceflight-simulator/images/1/1c/Anaexpress.png)
The solid rocket boosters are double 4wide boosters. The first stage and the solid rocket boosters are capable of reaching low earth orbit. Some parts of the second stage and the OL and rover are covered in fairings. The second stage has 3 valiant engines, and extra fuel tanks. The Orbiter-Lander (OL) is a mix of an orbiter and lander. This rocket is capable of reaching Mars Orbit. It uses basic parts and can land landers on Moon, Mars, Phobos or Deimos. Fuel is hard to save.ĭesigned by User:PurpleSeba888, this rocket is able to land on Mars and return as well. This rocket was designed by User:Jws29095, using only basic parts. The maximum mass of payload that can be brought to Mars is not tested.ĭespite the blocky shape of the rocket, Titan Engines produce a large amount of thrust that overcome the awkward aerodynamics. Lunch 7 is capable of sending approximately 95 tons of cargo to LEO without exhausting all fuel (as of version 1.35). It is capable of reaching Low Earth Orbit, Moon and Mars or a solar orbit. This is a rocket designed by User:LxkXGZeO0TMePwByID2rIp74. It is capable of reaching Low Earth Orbit, Moon, Venus and Mars with well-designed aerodynamic supports. This is a rocket designed by EarthMoonExplorer Curiosity/Perseverance+Skycrane BP SpaceX Falcon Heavy