Asked by sarah
a pile drive has a 413 kg block that is lifted 1.4m and then dropped onto the pile being driven into the ground. suppose that it takes 24ms to stop when it hits the pile. what is the average force exerted on the pile by the pile driver?
Answers
Answered by
drwls
Force x distance driven =
Potential energy of the lifted weight
= (413)(9.8)(1.4) J
The distance X that the pile gets driven each time is (1/2)*(pile impact velocity)*time
The impact velocity of the pike is
V = sqrt(2gH)
Compute V, X, and then solve for the force.
Potential energy of the lifted weight
= (413)(9.8)(1.4) J
The distance X that the pile gets driven each time is (1/2)*(pile impact velocity)*time
The impact velocity of the pike is
V = sqrt(2gH)
Compute V, X, and then solve for the force.
Answered by
drwls
I just realized that this problem can be solved more directly using momentum considerations. The answer should be the same.
(Force)(stopping time)
= momentum at impact = M V
F = M V/(0.024 s)
V = sqrt(2gH), as before
(Force)(stopping time)
= momentum at impact = M V
F = M V/(0.024 s)
V = sqrt(2gH), as before
Answered by
alicia
A spelunker (cave explorer) drops a stone from rest into a hole. The speed of sound is 343 m/s in air, and the sound of the stone striking the bottom is heard 3.87 s after the stone is dropped. How deep is the hole?
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