Just wanna correct you there bud.
We don't move when jumping because we are moving relative to earth.
I have used this example before, and I will use it again.
Imagine I have a treadmill that stretches on forever, and I have it set to the highest setting.
If I jump, it moves beneath me, which is what you propose would happen.
But what if I am
Wearing shoes with really powerful magnets in them and the tread is metal?
When I jump (hypothetically because those magnets would make me stick like a rock) what should happen is I am carried back almost as fast as the tread, but not quite as fast.
I do move, but I don't fly across the room.
You can try this yourself by getting on a bulletproof or any kind of fast moving vehicle.
Simply jump and see if you land miles away or if you move only about a centimeter.
[spoiler]Also, you do realize that technology changes and the weather is dynamic?
Hammering nasa for pictures of earth looking different is like scalding a teenager for their acne changing.
It really makes you seem like a complete idiot.
Just tellin ya.[/spoiler]
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Not trying to be rude but if u jump on the car the reason u don't land in the exact same spot is solely air resistance. If moving at constant velocity in a vacuum u would always land in the same spot. Just adding this to ur statement have a good day
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The reason u don't move is due to the UA. The Universal Accelerator is constantly pushing the earth upward through space. As the train makes contact with earth it is also accelerating. When I jump on the train, it and the earth quickly accerates into me. That's why I don't fly backwards when I jump.ił