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Chemical, Thermal and Pol...
List of top Chemical, Thermal and Polymer Engineering Questions on Control Systems asked in CUET (PG)
The unit step response of the transfer function
\( G(s) = \frac{1}{s^2 + 2s + 3} \)
has:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
A first-order system with unity gain and time constant \( \tau \) is subjected to sinusoidal input having a frequency \( \omega \) of \( \frac{1}{\tau} \). The amplitude ratio for such system is:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
A step change of magnitude is introduced to a system having the transfer function
\[ G(s) = \frac{2}{s^2 + 2s + 4} \]
The percent overshoot is:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
The Bode diagram stability criterion is applicable when:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
The characteristic equation for the system is
\[ s^3 + 9s^2 + 26s + 12(2 + K_c) = 0 \]
Using Routh test, the value of Kc that will keep the system stable is:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
The transfer function of a PID controller is:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
Bode diagram is a plot of (AR is amplitude ratio; $\omega$ is frequency factor and $\phi$ is phase angle):
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
The Block diagram for a control system is shown below:
CUET (PG) - 2025
CUET (PG)
Chemical, Thermal and Polymer Engineering
Control Systems
