A point mass of 100 kg is dropped onto a massless elastic bar (cross-sectional area = 100 mm2, length = 1m, Youngs moduls = 100 GPa) from a height H of 10mm as shown (Figure is not to scale). If g = 10m/s2, the maximum compression of the elastic bar is _______ mm.Correct answer is between '1.50,1.52'. Can you explain this answer?

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A point mass of 100 kg is dropped onto a massless elastic bar (cross-sectional area = 100 mm², length = 1m, Young‟s moduls = 100 GPa) from a height H of 10mm as shown (Figure is not to scale). If g = 10m/s2, the maximum compression of the elastic bar is _______ mm.

Correct answer is between '1.50,1.52'. Can you explain this answer?

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A point mass of 100 kg is dropped onto a massless elastic bar (cross-s...

Given that
m = 100kg, g =10 m /sec² , E= 100GPa H=10mm, L =1m= 100mm, A =100mm²
From the given figure, we can say that this is case of Impact loading, We know that, stress due to Impact load is

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A point mass of 100 kg is dropped onto a massless elastic bar (cross-sectional area = 100 mm2, length = 1m, Young‟s moduls = 100 GPa) from a height H of 10mm as shown (Figure is not to scale). If g = 10m/s2, the maximum compression of the elastic bar is _______ mm.Correct answer is between '1.50,1.52'. Can you explain this answer?

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