Problem 3 A 64-lb weight is attached to a vertical spring, causing it to stretch 3 in. upon coming to rest at equilibrium. The samping constant for the system is 3 lb-sec/ft. An external force F(t) that g - 32 ft/s². 3 cos(12t) lb is applied to the weight. Find the steady-state for the system. Note
Problem 3 A 64-lb weight is attached to a vertical spring, causing it to stretch 3 in. upon coming to rest at equilibrium. The samping constant for the system is 3 lb-sec/ft. An external force F(t) that g - 32 ft/s². 3 cos(12t) lb is applied to the weight. Find the steady-state for the system. Note
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![Problem 3
A 64-lb weight is attached to a vertical spring, causing it to stretch 3 in. upon coming to
rest at equilibrium. The samping constant for the system is 3 lb-sec/ft. An external force
F(t) = 3 cos(12t) lb is applied to the weight. Find the steady-state for the system. Note
that
g× 32 ft/s².](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1b014690-a793-44dc-8043-296e0c80c539%2F5051d958-ee62-4d36-b1db-aaeea234fc07%2F47hdwp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Problem 3
A 64-lb weight is attached to a vertical spring, causing it to stretch 3 in. upon coming to
rest at equilibrium. The samping constant for the system is 3 lb-sec/ft. An external force
F(t) = 3 cos(12t) lb is applied to the weight. Find the steady-state for the system. Note
that
g× 32 ft/s².
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