2 m, two springs with stiffness k=1000 N-m/rad and k = 2000 N/m, one damper w ping coefficient c=50 N-s/m and two additive masses at the end of the bar, where e s (M) is equal to 50 kg. The rotation about the hinge A, measured with respect to ic equilibrium position of the system is 0(t). The system is excited by force (F) so f state space representation of the system if the output y=ė (t). F m M M Kt 2 A 1 HE k
2 m, two springs with stiffness k=1000 N-m/rad and k = 2000 N/m, one damper w ping coefficient c=50 N-s/m and two additive masses at the end of the bar, where e s (M) is equal to 50 kg. The rotation about the hinge A, measured with respect to ic equilibrium position of the system is 0(t). The system is excited by force (F) so f state space representation of the system if the output y=ė (t). F m M M Kt 2 A 1 HE k
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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Figure 1 shows a system comprising a bar with mass m-12 kg and the length of the bar L=2 m, two springs with stiffness kt=1000 N-m/rad and k = 2000 N/m, one damper with damping coefficient c=50 N-s/m and two additive masses at the end of the bar, where each mass (M) is equal to 50 kg. The rotation about the hinge A, measured with respect to the static equilibrium position of the system is 0 (t). The system is excited by force (F) so find the state space representation of the system if the output y=ġ(t).
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