A spring-mass system is shown in the following figure. Use m = 1.5 kg and k = 120 N/m. Equilibrium position m a) Determine the static deflection ôy. Insert your answer in meters correct up to at least a third decimal place. Sul b) Determine the system period z. Insert your answer in seconds correct up to at least a third decimal place. Su c) Determine the maximum velocity vmax which result if the cylinder is displaced 135 mm downward from its equilib position and released from rest. Insert your answer in m/s correct up to at least a third decimal place.

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Chapter9: Momentum And Its Conservation
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A spring-mass system is shown in the following figure. Use m = 1.5 kg and k = 120 N/m.
Equilibrium
position
m
a)
Determine the static deflection ôy. Insert your answer in meters correct up to at least a third decimal place.
Sul
b)
Determine the system period t. Insert your answer in seconds correct up to at least a third decimal place.
Sul
c)
Determine the maximum velocity Umax which result if the cylinder is displaced 135 mm downward from its equilib
position and released from rest. Insert your answer in m/s correct up to at least a third decimal place.
Transcribed Image Text:A spring-mass system is shown in the following figure. Use m = 1.5 kg and k = 120 N/m. Equilibrium position m a) Determine the static deflection ôy. Insert your answer in meters correct up to at least a third decimal place. Sul b) Determine the system period t. Insert your answer in seconds correct up to at least a third decimal place. Sul c) Determine the maximum velocity Umax which result if the cylinder is displaced 135 mm downward from its equilib position and released from rest. Insert your answer in m/s correct up to at least a third decimal place.
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