Moon's Gravitational Strength is weaker than our Earth's so anything you throw up in the air for lets say 0.5m and wait for it to come back down on Earth would be much faster than on the Moon since the gravitational strength isnt as strong
@@ibrahimkhan-qc7bl The question asked for horizontal speed not vertical speed so it won't be affected by the difference in gravitational field strength. Since the experiment was repeated identically on the moon this means the force pushing the ball was the same and the mass of the ball is the same. F=ma so with force and mass being equal acceleration would also be equal so the speed would be the same.
I have my exam tomorrow thanks for your help
exam tomorrow, this helped
Sir very nice explanation I loved it thankyou sir
Thanks mister for your appreciated efforts
thank you soo much this helped me in a way I cant describe
Thank you Mr
Thank you... Why does the ball take more time in question 3?
Moon's Gravitational Strength is weaker than our Earth's so anything you throw up in the air for lets say 0.5m and wait for it to come back down on Earth would be much faster than on the Moon since the gravitational strength isnt as strong
@@RaiseThePressureCan u explain why the speed is the same??
@@ibrahimkhan-qc7bl The question asked for horizontal speed not vertical speed so it won't be affected by the difference in gravitational field strength. Since the experiment was repeated identically on the moon this means the force pushing the ball was the same and the mass of the ball is the same. F=ma so with force and mass being equal acceleration would also be equal so the speed would be the same.
Thank you mr