SOLUTION: You drop a penny from a 70-foot high bridge. What is the velocity of the penny when it hits the water below? Neglect the effect of air resistance and round your answer to the nea
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Question 324529: You drop a penny from a 70-foot high bridge. What is the velocity of the penny when it hits the water below? Neglect the effect of air resistance and round your answer to the nearest unit. Found 2 solutions by Alan3354, solver91311:Answer by Alan3354(69443) (Show Source):
You can put this solution on YOUR website! Find the time until impact.
s = (1/2)at^2
a = acceleration due to gravity, ~32 ft/sec/sec on Earth
70 = 16t^2
t^2 = 70/16 = 4.375
t = 2.09 seconds
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v = at = 32*2.09
v =~ 67 ft/sec
The height of an object in vertical motion near the earth's surface at time is given by:
Where is the initial velocity (assumed to be zero for this problem since the penny was dropped, not thrown) and is the initial height, 70 feet in this case.
We want to know the time when
We are ignoring the negative square root since it is unlikely that we will be able to make time go backwards.
The instantaneous velocity of a falling object at time is given by:
Clever calculus students will recognize this function as the first derivative of the height function.
All that is required is to calculate the velocity at the time calculated above, recalling that :
You can push buttons on a calculator as well as I can. "But wait," you say, "why is the velocity negative?" Easy, the penny is going downward.
