GATE ECE 2015 Set 3 | Continuous Time Linear Invariant System Question 10 | Signals and Systems

Signals and Systems

Representation of Continuous Time Signal Fourier Series

Marks 1 Marks 2

Fourier Transform

Marks 1 Marks 2 Marks 5

Continuous Time Signal Laplace Transform

Marks 1 Marks 2 Marks 5

Discrete Time Signal Fourier Series Fourier Transform

Marks 1 Marks 2

Discrete Fourier Transform and Fast Fourier Transform

Marks 1 Marks 2

Discrete Time Signal Z Transform

Marks 1 Marks 2

Continuous Time Linear Invariant System

Marks 1 Marks 2 Marks 5

Discrete Time Linear Time Invariant Systems

Marks 1 Marks 2 Marks 4 Marks 5

Transmission of Signal Through Continuous Time LTI Systems

Marks 1 Marks 2 Marks 5

Sampling

Marks 1 Marks 2 Marks 4 Marks 5

Transmission of Signal Through Discrete Time Lti Systems

Marks 1 Marks 2 Marks 4

Miscellaneous

Marks 1 Marks 2

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GATE ECE 2015 Set 3

MCQ (Single Correct Answer)

-0.3

The impulse response of an LTI system can be obtained by

differentiating the unit ramp response

differentiating the unit step response

integrating the unit ramp response

integrating the unit step response

GATE ECE 2013

MCQ (Single Correct Answer)

-0.3

Two system with impulse responses h₁(t) and h₂(t) are connected in cascade. Then the overall impulse response of the cascaded system is given by

Product of h₁(t) and h₂(t).

Sum of h₁(t) and h₂(t).

Convolution of h₁(t) and h₂(t).

Subtraction of h₁(t) and h₂(t)

GATE ECE 2013

MCQ (Single Correct Answer)

-0.3

The impulse response of a system is h(t) = t u(t). For an input u(t - 1), the output is

$${{{t^2}} \over 2}u\left( t \right)$$

$${{t\left( {t - 1} \right)} \over 2}u\left( {t - 1} \right)$$

$${{{{\left( {t - 1} \right)}^2}} \over 2}u\left( {t - 1} \right)\,$$

$${{{t^2} - 1} \over 2}u\left( {t - 1} \right)$$

GATE ECE 2011

MCQ (Single Correct Answer)

-0.3

The differential equation $$100{{{d^2}y} \over {dt}} - 20{{dy} \over {dt}} + y = x\left( t \right)$$ describes a system with an input x(t) and output y(t). The system, which is initially relaxed, is excited by a unit step input. The output y(t) can be represented by the waveform

GATE ECE 2011 Signals and Systems - Continuous Time Linear Invariant System Question 40 English Option 1

GATE ECE 2011 Signals and Systems - Continuous Time Linear Invariant System Question 40 English Option 2

GATE ECE 2011 Signals and Systems - Continuous Time Linear Invariant System Question 40 English Option 3

GATE ECE 2011 Signals and Systems - Continuous Time Linear Invariant System Question 40 English Option 4

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Questions Asked from Marks 1

GATE ECE 2017 Set 1 (1) GATE ECE 2017 Set 2 (1) GATE ECE 2015 Set 1 (1) GATE ECE 2015 Set 3 (1) GATE ECE 2013 (2) GATE ECE 2011 (1) GATE ECE 2008 (2) GATE ECE 2005 (1) GATE ECE 2003 (1) GATE ECE 2002 (1) GATE ECE 2001 (1) GATE ECE 2000 (1) GATE ECE 1998 (2) GATE ECE 1995 (3) GATE ECE 1994 (1)

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