GATE ECE 2010 | Frequency Response Analysis Question 27 | Control Systems

A system with the transfer function $${{Y(s)} \over {X(s)}} = {s \over {s + p}},$$ has an output y(t)=$$\cos \left( {2t - {\pi \over 3}} \right),$$ for input signal x(t)=$$p\cos \left( {2t - {\pi \over 2}} \right).$$ Then the system parameter 'p' is

$$\sqrt 3 $$

$${2 \over {\sqrt 3 }}$$

$${{\sqrt 3 } \over 2}$$

GATE ECE 2010

MCQ (Single Correct Answer)

-0.3

For the asymptotic Bode magnitude plot shown below, the system transfer function can be GATE ECE 2010 Control Systems - Frequency Response Analysis Question 58 English

GATE ECE 2010 Control Systems - Frequency Response Analysis Question 58 English

$${{10s + 1} \over {0.1s + 1}}$$

$${{100s + 1} \over {0.1s + 1}}$$

$${{100s} \over {10s + 1}}$$

$${{0.1s + 1} \over {10s + 1}}$$

GATE ECE 2007

MCQ (Single Correct Answer)

-0.3

If the closed-loop transfer function of a control system is given as T(s)=$${{s - 5} \over {(s + 2)(s + 3)}},$$ then it is

an unstable system

an uncontrollable system

a minimum phase system

a non-minimum phase system

GATE ECE 2006

MCQ (Single Correct Answer)

-0.3

In the system shown below, x(t)=(sin t). In steady-state, the response y(t) will be GATE ECE 2006 Control Systems - Frequency Response Analysis Question 62 English

GATE ECE 2006 Control Systems - Frequency Response Analysis Question 62 English

$${1 \over {\sqrt 2 }}\sin \left( {t - {\pi \over 4}} \right)$$

$${1 \over {\sqrt 2 }}\sin \left( {t + {\pi \over 4}} \right)$$

$${1 \over {\sqrt 2 }}{e^{ - t}}\sin t$$

$$\sin t - \cos t$$

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GATE ECE Subjects

Signals and Systems

Network Theory

Control Systems

Digital Circuits

General Aptitude

Electronic Devices and VLSI

Analog Circuits

Engineering Mathematics

Microprocessors

Communications

Electromagnetics