Consider the feedback control system block diagram in Fig.1 Investigate closed loop stability for Gc(s) = K(s + 2) and G(s) = 1/ (s + 3)(s – 2) , for the two cases where K- 2 and K - 4., the system is: Controller Process R(s) G(s) Fig.1 a. a. Unstable for K = 2 and unstable for K =4 b. b. Stable for K = 21 and unstable for K = 4 d. Unstable for K = 2 and stable for K = 4 C. c. Stable for K = 2 and stable for K = 4 d.
Consider the feedback control system block diagram in Fig.1 Investigate closed loop stability for Gc(s) = K(s + 2) and G(s) = 1/ (s + 3)(s – 2) , for the two cases where K- 2 and K - 4., the system is: Controller Process R(s) G(s) Fig.1 a. a. Unstable for K = 2 and unstable for K =4 b. b. Stable for K = 21 and unstable for K = 4 d. Unstable for K = 2 and stable for K = 4 C. c. Stable for K = 2 and stable for K = 4 d.
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:3. Consider the feedback control system block diagram in Fig.1 Investigate closed loop
stability for Gc(s) = K(s + 2) and G(s) = 1/ (s +3)(s – 2) , for the two cases where
K=2 and K - 4., the system is:
Controller
Process
R(s)
Fig.1
a. Unstable for K = 2 and unstable for K = 4
O a.
Ob.
b. Stable for K = 21 and unstable for K = 4
d. Unstable for K = 2 and stable for K = 4
O d.
c. Stable for K = 2 and stable for K = 4
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