Q4. The energy of a damped system consisting of as miti 0.5 kg, spring (k = 200 N/m), and viscous driven by a driving fo

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Q4 The Energy Of A Damped System Consisting Of As Miti 0 5 Kg Spring K 200 N M And Viscous Driven By A Driving Fo 1 (49.81 KiB) Viewed 18 times

Q4. The energy of a damped system consisting of as miti 0.5 kg, spring (k = 200 N/m), and viscous driven by a driving force F=Focosct, where o is the varying driving frequency, and Fo=5 N. damping mechanism is found to decrease to i/e of its initial value in a single oscillation. The system is then (a) What will be the limiting steady state amplitude if the driving frequency is much smaller than the natural frequency? (b) What will be the displacement amplitude at resonance, and the frequency at which the displacement (c) What will be the velocity amplitude at resonance, and the frequency at which the velocity resonance occurs? (d) What is the mean power input to maintain the forced oscillations at a frequency equal to half of the natural resonance occurs? frequency of the oscillator?