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Electrical Engineering (EE) Exam  >  Electrical Engineering (EE) Tests  >  Control Systems  >  Test: Transfer Function- 3 - Electrical Engineering (EE) MCQ

Test: Transfer Function- 3 - Electrical Engineering (EE) MCQ


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15 Questions MCQ Test Control Systems - Test: Transfer Function- 3

Test: Transfer Function- 3 for Electrical Engineering (EE) 2024 is part of Control Systems preparation. The Test: Transfer Function- 3 questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Transfer Function- 3 MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Transfer Function- 3 below.
Solutions of Test: Transfer Function- 3 questions in English are available as part of our Control Systems for Electrical Engineering (EE) & Test: Transfer Function- 3 solutions in Hindi for Control Systems course. Download more important topics, notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free. Attempt Test: Transfer Function- 3 | 15 questions in 45 minutes | Mock test for Electrical Engineering (EE) preparation | Free important questions MCQ to study Control Systems for Electrical Engineering (EE) Exam | Download free PDF with solutions
Test: Transfer Function- 3 - Question 1
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Match List - I (Roots in s-plane) with List - II (Corresponding impulse response) and select the correct answer using the codes given below the lists:
List - I




List - II




Codes:

Detailed Solution for Test: Transfer Function- 3 - Question 1

For A: Two conjugate poles on imaginary axis i.e. it’s impulse response = sin at (marginally stable).
For B: Two poles at origin i.e. impulse response = t u(t) (unstable system).
For C: Two complex conjugate poles with negative real parts. So, its impulse response = er-at sin bt (stable system).
For D: Two imaginary complex double roots. So, impulse response = t sin bt. (unstable system).

Test: Transfer Function- 3 - Question 2
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The transfer function of a system is the ratio of

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Test: Transfer Function- 3 - Question 3
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The transfer function is applicable to

Detailed Solution for Test: Transfer Function- 3 - Question 3
  • The transfer function represents the relationship between input and output in a system.
  • It is only applicable to linear systems, meaning the output is directly proportional to the input.
  • Time-invariant systems are those whose behavior does not change over time, making them suitable for transfer functions.
  • Non-linear and time-variant systems cannot be effectively described using transfer functions due to their complexity.
Test: Transfer Function- 3 - Question 4
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The DC gain of the system represented by the following transfer function is
Detailed Solution for Test: Transfer Function- 3 - Question 4

Given transfer function is

Converting above transfer function in time-constant form, we get:

Hence, dc gain is

Test: Transfer Function- 3 - Question 5
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The unit impulse response of a control system is given by c(t) = -te-t + e-t. Its transfer function is
Detailed Solution for Test: Transfer Function- 3 - Question 5

Given, c(t) = -te-t + e-t (impulse response)
We know that,


Test: Transfer Function- 3 - Question 6
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The impulse response of an initially relaxed linear system is e-3t u(t). To produce a response of te-3t u(t), the input must be equal to
Detailed Solution for Test: Transfer Function- 3 - Question 6

We know that, impulse response

For given system,

Now, c(t) = t e-3t

So, R{s) = C(s) x (s + 3)

or, r(t) = Required input = e-3t u(t)

Test: Transfer Function- 3 - Question 7
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A linear time invariant system, initially at rest when subjected to a unit step input gave response c(t) = te-t(t ≥ 0). The transfer function of the system is
Detailed Solution for Test: Transfer Function- 3 - Question 7

Given, c(t) = te-t

Now, r(t) = u(t) (unit step input)
∴ R(s) = 1/s
So, 

Test: Transfer Function- 3 - Question 8
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A linear time invariant system having input r(t) and output y(t) is represented by the differential equation

The transfer function of the given system is represented as
Detailed Solution for Test: Transfer Function- 3 - Question 8

Taking Laplace transform of the given differential equation on both sides, we get
2s2 Y(s) + sY(s) + 5 Y(s) = R(s) + 2e-s R(s)
or, 

Test: Transfer Function- 3 - Question 9
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The open loop transfer function of a system is

A closed loop pole will be located at s = -12
when the value of K is
Detailed Solution for Test: Transfer Function- 3 - Question 9


Test: Transfer Function- 3 - Question 10
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The singularities of a function are the points in the s-plane at which the function or its derivates
Test: Transfer Function- 3 - Question 11
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Assertion (A): The final value theorem cannot be applied to a function given by 

Reason (R): The function s F(s) has two poles on the imaginary axis of s-plane.
Detailed Solution for Test: Transfer Function- 3 - Question 11

The final value theorem is valid only if sF(s) does not has any poles on the jω axis and in the right half of the s-plane. Hence, both A and R are true and R is a correct explanation of A.

Test: Transfer Function- 3 - Question 12
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When two time constant elements are cascaded non-interactively then, the overall transfer function of such an arrangement
Test: Transfer Function- 3 - Question 13
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The unit impulse response of a unity feedback control svstem whose Open Iood transfer function
Detailed Solution for Test: Transfer Function- 3 - Question 13

Given, O.L.T.F. 


For unit impulse response, R(s) = 1

or, c(t) = 2(e-t - te-t) + te-t
= 2e-t - te-t = (2- t) e-t
Thus, impulse response, c(t) = (2 - t) e-t u(t)

Test: Transfer Function- 3 - Question 14
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The impulse response of a linear time invariant system is a unit step function. The transfer function of this system would be
Detailed Solution for Test: Transfer Function- 3 - Question 14

Impulse response,
c(t) = u(t)

Test: Transfer Function- 3 - Question 15
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Consider the function   where F(s) is the Laplace transform of f(t)  is equal to
Detailed Solution for Test: Transfer Function- 3 - Question 15

Using final value theorem

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