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6. In Figure 6, a 2-kg block is subjected to a harmonic force F = 30 cos 5t. Given that if k₁ = 40 N/m, k₂ = 60 N/m, k3 = 76 N/m, and c = 50 N.s/m, derive the equation describing its steady-state motion. k1 k2 C K3 2 kg F Figure 6: A forced vibration with damper

6. In Figure 6, a 2-kg block is subjected to a harmonic force F = 30 cos 5t. Given that if k₁ = 40 N/m, k₂ = 60 N/m, k3 = 76 N/m, and c = 50 N.s/m, derive the equation describing its steady-state motion. k1 k2 C K3 2 kg F Figure 6: A forced vibration with damper

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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In Figure 6, a 2-kg block is subjected to a harmonic force F = 30 cos 5t. Given that if k1 = 40 N/m, k2 = 60 N/m, k3 = 76N/m, and c = 50 N.s/m, derive the equation describing its steady-state motion.

6. In Figure 6, a 2-kg block is subjected to a harmonic force F = 30 cos 5t. Given that if k₁ = 40 N/m, k₂ = 60 N/m, k3 = 76 N/m, and c = 50 N.s/m, derive the equation describing its steady-state motion. k1 k2 C K3 2 kg F Figure 6: A forced vibration with damper
Transcribed Image Text:6. In Figure 6, a 2-kg block is subjected to a harmonic force F = 30 cos 5t. Given that if k₁ = 40 N/m, k₂ = 60 N/m, k3 = 76 N/m, and c = 50 N.s/m, derive the equation describing its steady-state motion. k1 k2 C K3 2 kg F Figure 6: A forced vibration with damper
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