Forced Vibration Consider a particle on a mass 20 kg attached to a string is displaced 30 m. The spring has stiffness (spring constant) of 10 N/m. When it is released, it experiences a dumping force. Fp Bu. which sets in a damped vibration. The initial speed is equals to zero. 1. Determine the differential equation and the initial conditions describing the motion, 2 Determine the amplitude 3. Determine the period 4: Determine the frequency
Forced Vibration Consider a particle on a mass 20 kg attached to a string is displaced 30 m. The spring has stiffness (spring constant) of 10 N/m. When it is released, it experiences a dumping force. Fp Bu. which sets in a damped vibration. The initial speed is equals to zero. 1. Determine the differential equation and the initial conditions describing the motion, 2 Determine the amplitude 3. Determine the period 4: Determine the frequency
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Transcribed Image Text:Forced Vibration
Consider a particle on a mass 10 kg attached to a string is displaced 30 m. The spring has stiffness
(spring constant) of 10 N/m. When it is released, it experiences a dumping force. Fp = Bu. which
sets in a damped vibration. The initial speed is equals to zero.
1. Determine the differential equation and the initial conditions describing the motion,
2. Determine the amplitude :
3. Determine the period
4. Determine the frequency
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