![]() The challenge is designing the BEST rocket for the mission.Īnd the real challenge of doing that is knowing which rocket is best. The challenge, it turns out, is not to design a rocket capable of supporting human missions to Mars. Step Five: Whittle Down the Possibilities. In fact, you get a lot of blank sheets of paper. You work with other rocket designers, in both the government and commercial spaceflight worlds. Many engineers think your lander may measure up to 30 feet across, so you need a payload volume big enough to carry it. You’re going to have to be able to lift at least 130 metric tons of stuff (a.k.a. The general thinking is that you’re going to need multiple launches to carry out the mission, but even with multiple launches, there are going to be some really big pieces. Over history, there have been numerous studies of how to get to Mars, so you take the best data you can get and figure out what it takes to execute those missions. Blueprint of everything you need to build your own SLS, except for all the inner working that actually make it fly. Specifically, it’s going to be the rocket that will enable human missions to Mars, far and away the most ambitious task ever undertaken in spaceflight history. In order to know what kind of rocket you’re going to build, you need to know its requirements.įor the sake of this hypothetical example, let’s say the new rocket you need to build is to be designed for the purpose of human exploration of deep space. ![]() Step One: Know What Your Rocket Needs to Do. Well, what kind of rocket are you going to create? All rockets, after all, are not created equal – the world is full of a variety of rockets, all designed for different purposes. Let’s say you need to build a new rocket. ![]()
0 Comments
Leave a Reply. |