So it’s for sure a great achievement to master the timings etc. but aren’t the jumps rather easier than harder compared to a non-moving track? I mean, you have to jump ‘only’ upwards and don’t have to use any of your momentum on distance. Or do I oversee something?
…yes? That’s how physics works (provided that that something is moving at a constant velocity). The only difference between an enclosed moving platform and unenclosed one is that there may be additional issues with the wind/surrounding air, but the train in this post isn’t moving fast enough for that to be a concern.
So it’s for sure a great achievement to master the timings etc. but aren’t the jumps rather easier than harder compared to a non-moving track? I mean, you have to jump ‘only’ upwards and don’t have to use any of your momentum on distance. Or do I oversee something?
From his frame of reference the train is still, so he’s using the same amount of energy.
Oh, is it? I thought that’s just applicable in an enclosed space. So if I jump on top of a moving something, I should still land in the same spot?
…yes? That’s how physics works (provided that that something is moving at a constant velocity). The only difference between an enclosed moving platform and unenclosed one is that there may be additional issues with the wind/surrounding air, but the train in this post isn’t moving fast enough for that to be a concern.