Consider the control system has state space matrices as: -3 0 2] B-. c= 1 o 01, D = [0), The system A =0 5 1 Not completely state controllable but its completely observabity Not completely state controllable and observabiity 1 completely state controllable but not observability Can't decided

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Consider the control system has state space matrices as: -3 21 Consider the control system has state space matrices as: Consider the control systemn has state space matrices as: A 1. B = 1, C = [1 0 0], D [0], The system is: 4. 5 a13 [2] 4 1 01 B C = [1 0 0], D= [0], The system has 1 1. A -2 B = A -3 1 C = [1 0 0], D = [0], The system has %3D 0 2] Not completely state controllable but its completely observability s2-5S+6 poles in right half side of S-plane. transfer function In this case the value of ( a3) is: G(S)= $3+4S²+9S+40 Not completely state controllable and observability O One O +12 O 1 completely state controllable but not observability O Two -3 O Can' t decided O Three -2 O Four +4 O Considering the root locus diagram for a system with (K-16) and T.F. K(s+ 4) Considering the Bode diagram for a system with (K=25) and T.F. G(s) s(s +1)(s + 3)(s? + 4s + 13) K(s+2) G(s) = : The vahues of gain and phase margin at frequency Considering a unity feedback control system with forward T.F. %3D s(s+5)(s+10s+21) The break away and break in points at (s + 4) s(s + 1)(s+ 3)(s + 4s + 13) (w=6.41 rad) as : G(s) -0,453 and -3.235 Gm=-26.4 dB and Pm= [-1771 o O 2 If we added to this system zero at (s+1), the stability of this system will 6. -0.55 and -2.35 O Gm=10.35 dB and Pm= [-29.51 o O Deteriorate O -0.45 and -3.5 O 9. Gm=-23.53 dB and Pm= [-49.36) *o O No impact O Not all above O Not all above O Improves O Considering the root locus diagram for a system with Not all above O 20(s+ 4) Consider the control system has state space matrices as: G(s) = s(s + 1)(s+3)(s² + 4s + 13) 1 01 -3 0 1 2. 4 A B C = [1 0 0], D= [0], The system has %3D %3D The intersection points of root locus with imaginary axis by 1 ±j2.54 with K=0.85 O set conjugate zeros in the S-plane. ±j1.46 with K=1.26 O One O 7 Not all above O Two O ±j1.95 with K=2.46 O Three O Considering the Bode diagram for a system with (K-10) and T.F. K(S+3) G(S)= S(S+10)(S+3)(S²+6S+8) : G-37.502 dB and P49.76° : If the value of gain is change to (K=50) the values of gain and phase margin as : Gm=7.5 dB and Pm= [49.761 ^o O 4 Gm=1.35 dB and Pm= [9.751 ^o O Gm=3.53 dB and Pm= [-44.361 ^o O Not all above O 3.