SOLUTION: The distance s that an object falls due to gravity varies jointly as the acceleration g due to gravity and the square of the time t of fall. The acceleration due to gravity on the

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Question 623709: The distance s that an object falls due to gravity varies jointly as the acceleration g due to gravity and the square of the time t of fall. The acceleration due to gravity on the moon is 0.172 that on earth. If a rock falls for 2 seconds on earth, how many seconds would be required for the rock to fall an equal distance on the moon?
I am looking more for an explanation of how to do the problem rather than just an answer. Thank You!
Answer by ewatrrr(24785) (Show Source):
You can put this solution on YOUR website!

Hi
The distance s that an object falls due to gravity varies jointly as the
acceleration g due to gravity and the square of the time t of fall
s = gt^2
rock falls for 2 seconds on earth
s = 4g
gravity on the moon is 0.172 that on earth
how many seconds would be required for the rock to fall an equal distance on the moon?
4g = .172gt^2
4/.172 = t^2
4.8sec = t (rounded to one decimal point)