GATE ECE 2010 | GATE ECE Year Wise Previous Years Questions

GATE ECE 2010

MCQ (Single Correct Answer)

-0.6

In the circuit shown, the power supplied by the voltage source is

GATE ECE 2010 Network Theory - Network Elements Question 21 English

0 W

5 W

10 W

100 W

GATE ECE 2010

MCQ (Single Correct Answer)

-0.6

In the circuit shown, the switch S is open for a long time and is closed at t=0. The current i(t) for t ≥ 0⁺ is GATE ECE 2010 Network Theory - Transient Response Question 25 English

GATE ECE 2010 Network Theory - Transient Response Question 25 English

i(t) = 0.5 - 0.125e^-1000t A

i(t) = 1.5 - 0.125e^-1000t A

i(t) = 0.5 - 0.5e^-1000t A

i(t) = 0.375e^-1000t A

GATE ECE 2010

MCQ (Single Correct Answer)

-0.3

Two discrete time systems with impulse responses $${h_1}\left[ n \right]\, = \delta \left[ {n - 1} \right]$$ and $${h_2}\left[ n \right]\, = \delta \left[ {n - 2} \right]$$ are connected in cascade. The overall impulse response of the cascaded system is

$$\delta \left[ {n - 1} \right] + \delta \left[ {n - 2} \right]$$

$$\delta \left[ {n - 4} \right]$$

$$\delta \left[ {n - 3} \right]$$

$$\delta \left[ {n - 1} \right]\delta \left[ {n - 2} \right]$$

GATE ECE 2010

MCQ (Single Correct Answer)

-0.3

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 the input signal
$$x(t) = p\cos \left( {2t - {\pi \over 2}} \right)$$. Then, the system parameter 'p' is

$$\sqrt 3 $$

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

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

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