When you jump, you exert a force greater than the force of gravity to achieve a net positive upward acceleration - at least until your feet leave the ground and you quit exerting force. The net upward force is
Fnet = (force you push off with) - (force of gravity)
Because the moon has less mass than the earth, the force of gravity is less. As a result, the force you exert to jump on earth would give a higher net upward acceleration on the moon and allow you jump higher.
Because gravity is only one sixth of what it is on the earth.
Yes you can because there is less gravity.
The moon's surface gravity is about on sixth of the surface gravity on Earth.
It's simple Gravity you see...When you jump on earth the gravity pulls you down however if you jump on the moon there is no gravity meaning you'll just float off and eventually land.
The gravitational pull is less.
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you can jump about six time higher on the moon than you can here on earth.
You could jump much higher and farther because there us less gravity on the moon so it never pulls you down so you can jump higher and farther.
2163
You can jump higher because the moon has a weaker gravitational pull:) Gravity is what pulls you down so you don't float off into space on earth
because the moon has no gravity.
You can jump higher on moon,because there's less gravity.
you can jump about six time higher on the moon than you can here on earth.
i think the moon
You could jump much higher and farther because there us less gravity on the moon so it never pulls you down so you can jump higher and farther.
You will be able to jump six times higher on the moon because the moon's gravity is 1/6th of Earth's.
2163
You can jump higher because the moon has a weaker gravitational pull:) Gravity is what pulls you down so you don't float off into space on earth
because the moon has no gravity.
Jack Cascio shows you in this video how you can jump higher and dunk.
Lower force of gravity.
Because the Moon has 1/6th the gravity as on Earth. So for the same effort, you have 1/6th less "resistance" on the Moon.
When you jump, you exert a force greater than the force of gravity to achieve a net positive upward acceleration - at least until your feet leave the ground and you quit exerting force. The net upward force is Fnet = (force you push off with) - (force of gravity) Because the moon has less mass than the earth, the force of gravity is less. As a result, the force you exert to jump on earth would give a higher net upward acceleration on the moon and allow you jump higher.