Stability Analysis of a given system Using Polar Plot

Select the transfer function

Frequency (rad/sec)	Gain, A(ω) (dB)	Phase Angle, ɸ(ω) (Degree)
-5	3.47	-131
1	1.26	-162
1.414	0.67	-180
1.5	0.59	-183
2	0.31	-198
10	0.004	-235

Frequency (rad/sec)	Gain, A(ω) (dB)	Phase Angle, ɸ(ω) (Degree)
0.5	11.64	-194
1	2.68	-207
1.5	1.07	-217
2	0.53	-225
1o	0.006	-259

1. The system is called be marginally stable, if

(Choose 1 answer)

Phase crossover frequency < Gain crossover frequency

Phase crossover frequency = Gain crossover frequency

2. Find phase crossover frequency in rad/sec, if transfer function A(s) B(s) = 1/s(s+1)(s+0.5)

(Choose 1 answer)

0.707

0.9

3. A system with zero phase margin and unity gain margin is

(Choose 1 answer)

Oscillatory

Sluggish

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Stability Analysis of a given system Using Polar Plot

Select the transfer function

You have selected this equation

Find the values of Gain and Phase angle for the frequencies given

You have selected this equation

Find the values of Gain and Phase angle for the frequencies given

1. The system is called be marginally stable, if

2. Find phase crossover frequency in rad/sec, if transfer function A(s) B(s) = 1/s(s+1)(s+0.5)

3. A system with zero phase margin and unity gain margin is