A mass weighing 16 lb stretches a spring 3 in. The mass is attached to a viscous damper with a damping constant of 2 lb - s/ft. If the mass is set in motion from its equilibrium position with a downward velocity of 2 in/s, find its position u at any time t. Assume the acceleration of gravity g = 32 ft/s². O O C u = u= 1 √31 1 12√31 √31 1 -21 cos2√31t -2⁰ cos2√31t -2¹ sin2 √√/31t 12√/31 1 12√/31 -2⁰ cos2√31t+ -2t e 'sin2√31t cos2 √√/31t+ 1 -21 sin2√31t 12√31 1 √31 "sin2√31t

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A mass weighing 16 lb stretches a spring 3 in. The mass is attached to a viscous damper with a damping constant of 2 lb - s/ft. If the mass is set in motion from its equilibrium position with a downward velocity of 2 in/s, find its position u at any time t. Assume the acceleration of gravity g = 32 ft/s². O O u = u = u = 31 1 12√/31 1 1 12√/31 1 12√/31 31 'cos2√31t -2t cos2√√/31t -2¹ sin2√31t -21 cos2√31t+ -21 sin2 √√/31t 'cos2√31t+ 1 ₂-21 sin2√31t 12√√/31 1 sin2√31t