The response of a second order system when subjected to a step input is shown in Figure Q2. Use, S=1, T=0, U=6). Determine: 1.15 y(t) 1.0T 0.1 0 Rise time Determine: Overshoot 3.U Figure Q2 T. Settling time The response of a second order system when subjected to a step input is shown in Figure Q2. (a) Frequency ratio, (b) The damped and natural frequency, wd and con (c) The settling time, Ts (d) The transfer function Time (s)

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The response of a second order system when
subjected to a step input is shown in Figure Q2.
Use, S=1, T=0, U=6).
Determine:
y(t)
1.15
1.0T
0.1
0
Rise time
Determine:
Overshoot
3.U
Figure Q2
T,
Settling
time
The response of a second order system when subjected to a step input is shown in Figure Q2.
(a) Frequency ratio,
(b) The damped and natural frequency, wd and con
(c) The settling time, Ts
(d) The transfer function
Time (s)
Transcribed Image Text:The response of a second order system when subjected to a step input is shown in Figure Q2. Use, S=1, T=0, U=6). Determine: y(t) 1.15 1.0T 0.1 0 Rise time Determine: Overshoot 3.U Figure Q2 T, Settling time The response of a second order system when subjected to a step input is shown in Figure Q2. (a) Frequency ratio, (b) The damped and natural frequency, wd and con (c) The settling time, Ts (d) The transfer function Time (s)
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