3.22. For the system shown in Fig. P3.11, derive the differential equation of motion for small oscillation. If m = m2 = 1 kg, ki = k2 = 1000 N/m, ci = c2 = 10N- s/m, a = b = 0.5 m, and I = 1 m, find the solution after 1 s provided that the initial angular displacement is zero and the initial angular velocity is 5 rad/s. Assume that the rod is massless. a k2 m2
3.22. For the system shown in Fig. P3.11, derive the differential equation of motion for small oscillation. If m = m2 = 1 kg, ki = k2 = 1000 N/m, ci = c2 = 10N- s/m, a = b = 0.5 m, and I = 1 m, find the solution after 1 s provided that the initial angular displacement is zero and the initial angular velocity is 5 rad/s. Assume that the rod is massless. a k2 m2
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Transcribed Image Text:3.22. For the system shown in Fig. P3.11, derive the differential equation of motion
for small oscillation. If m = m2 = 1 kg, ki = k2 = 1000 N/m, c = c2 =
10N- s/m, a = b = 0.5 m, and I = 1 m, find the solution after Is provided
that the initial angular displacement is zero and the initial angular velocity is
5 rad/s. Assume that the rod is massless.
a
k2
m2
Fig. P3.11
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