I don’t know nt get it. They only moved it half the distance that they needed, because it ran out of fuel. It’s a relatively short distance and I’d expect space movement to keep moving, after I initiated, as there is no friction. Why did it stop moving once they were headed away?
Explaining orbital mechanics is hard because people aren’t used to it, but I’ll try. I’d recommend playing Kerbal Space Program if you really want to understand it though.
Orbiting is just moving horizontally as fast as gravity pulls you down, so you never fall down. If you speed the horizontal part up, you’ll move further away on the opposite side of your orbit because you were moving sideways faster than you were falling down. To stay at that altitude you need to be moving faster though, so you’ll fall back in if you don’t accelerate here again. You don’t just keep going further away, because higher orbits require faster and faster speeds.
Let me know if that helps, but this probably can’t be understood by text very easily. You probably at least need pictures, if not video, but actually interacting with it is the best way. Kerbal Space Program is famous for helping people wrap their mind around orbital mechanics.
I don’t know nt get it. They only moved it half the distance that they needed, because it ran out of fuel. It’s a relatively short distance and I’d expect space movement to keep moving, after I initiated, as there is no friction. Why did it stop moving once they were headed away?
Explaining orbital mechanics is hard because people aren’t used to it, but I’ll try. I’d recommend playing Kerbal Space Program if you really want to understand it though.
Orbiting is just moving horizontally as fast as gravity pulls you down, so you never fall down. If you speed the horizontal part up, you’ll move further away on the opposite side of your orbit because you were moving sideways faster than you were falling down. To stay at that altitude you need to be moving faster though, so you’ll fall back in if you don’t accelerate here again. You don’t just keep going further away, because higher orbits require faster and faster speeds.
Let me know if that helps, but this probably can’t be understood by text very easily. You probably at least need pictures, if not video, but actually interacting with it is the best way. Kerbal Space Program is famous for helping people wrap their mind around orbital mechanics.
I’ll second KSP. I learned a ton from that game.
I got it one time when someone explained orbiting as “falling faster than gravity pulling you towards the ground”.