The system shown in Figure 1 consists of a rod having a mass of 12 kg. A spring with stiffness of k 3 kN/m and a dashpot of viscous friction coefficient of c = 200 N. s/m are attached to the rod as shown. The free end of the rod is subjected to a sinusoidal input force F(t) = 30 sin ( 6t) N. Assuming small rotations about point B, find the steady state vibration of the output 0(t)

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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The system shown in Figure 1 consists of a rod having a mass of 12 kg. A spring
with stiffness of k = 3 kN/m and a dashpot of viscous friction coefficient of c =
200 N. s/m are attached to the rod as shown. The free end of the rod is subjected
to a sinusoidal input force F(t) = 30 sin ( 6t) N. Assuming small rotations about
point B, find the steady state vibration of the output 0(t)
F = (30 sin 6 t) N
k = 3 kN/m
0.2 m
0.2 m
C
c = 200 N.s/m
0.2 m
Transcribed Image Text:The system shown in Figure 1 consists of a rod having a mass of 12 kg. A spring with stiffness of k = 3 kN/m and a dashpot of viscous friction coefficient of c = 200 N. s/m are attached to the rod as shown. The free end of the rod is subjected to a sinusoidal input force F(t) = 30 sin ( 6t) N. Assuming small rotations about point B, find the steady state vibration of the output 0(t) F = (30 sin 6 t) N k = 3 kN/m 0.2 m 0.2 m C c = 200 N.s/m 0.2 m
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