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Signals and Systems
Linear Time Invariant Systems
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Continuous and Discrete Time Signals
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Continuous Time Signal Fourier Transform
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Continuous Time Periodic Signal Fourier Series
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Discrete Time Signal Z Transformation
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Miscellaneous
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Continuous Time Signal Laplace Transform
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Sampling Theorem
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1
GATE EE 2025
MCQ (Single Correct Answer)
+2
-0.67
The continuous-time unit impulse signal is applied as an input to a continuous-time linear time-invariant system $S$. The output is observed to be the continuous-time unit step signal $u(t)$. Which one of the following statements is true?
A
Every bounded input signal applied to $S$ results in a bounded output signal.
B
It is possible to find a bounded input signal which when applied to $S$ results in an unbounded output signal.
C
On applying any input signal to $S$, the output signal is always bounded.
D
On applying any input signal to $S$ the output signal is always unbounded.
2
GATE EE 2024
MCQ (Single Correct Answer)
+2
-1.33

The input $x(t)$ and the output $y(t)$ of a system are related as

$$ y(t) = e^{-t} \int\limits_{-\infty}^{t} e^{\tau} x(\tau) d\tau, \quad - \infty < t < \infty. $$

The system is

A

nonlinear.

B

linear and time-invariant.

C

linear but not time-invariant.

D

noncausal.

3
GATE EE 2024
MCQ (Single Correct Answer)
+2
-1.33

Consider the discrete-time systems $T_1$ and $T_2$ defined as follows:

{ $T_1 x[ n ] = x[ 0 ] + x[ 1 ] + \cdots + x[ n ] $}

{ $T_2 x[ n ] = x[ 0 ] + \frac{1}{2} x[ 1 ] + \cdots + \frac{1}{2^n} x[ n ] $}

Which one of the following statements is true?

A

$T_1$ and $T_2$ are BIBO stable.

B

$T_1$ and $T_2$ are not BIBO stable.

C

$T_1$ is BIBO stable but $T_2$ is not BIBO stable.

D

$T_1$ is not BIBO stable but $T_2$ is BIBO stable.

4
GATE EE 2022
MCQ (Single Correct Answer)
+2
-0.67

Let a causal LTI system be governed by the following differential equation $$y(t) + {1 \over 4}{{dy} \over {dt}} = 2x(t)$$, where x(t) and y(t) are the input and output respectively. Its impulse response is

A
$$2{e^{ - {1 \over 4}t}}u(t)$$
B
$$2{e^{ - 4t}}u(t)$$
C
$$8{e^{ - {1 \over 4}t}}u(t)$$
D
$$8{e^{ - 4t}}u(t)$$
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Questions Asked from Marks 2
GATE EE 2025 (1) GATE EE 2024 (2) GATE EE 2022 (2) GATE EE 2015 Set 2 (1) GATE EE 2013 (1) GATE EE 2012 (2) GATE EE 2011 (1) GATE EE 2010 (1) GATE EE 2009 (2) GATE EE 2008 (3) GATE EE 2007 (4) GATE EE 2006 (4) GATE EE 2004 (1) GATE EE 2001 (1)
GATE EE Subjects
Electromagnetic Fields
Signals and Systems
Engineering Mathematics
General Aptitude
Power Electronics
Power System Analysis
Analog Electronics
Control Systems
Digital Electronics
Electrical Machines
Electric Circuits
Electrical and Electronics Measurement