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Electrical Engineering (EE) Exam  >  Electrical Engineering (EE) Tests  >  GATE Electrical Engineering (EE) Mock Test Series 2025  >  Test: Symmetrical Components - 2 - Electrical Engineering (EE) MCQ

Test: Symmetrical Components - 2 - Electrical Engineering (EE) MCQ


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10 Questions MCQ Test GATE Electrical Engineering (EE) Mock Test Series 2025 - Test: Symmetrical Components - 2

Test: Symmetrical Components - 2 for Electrical Engineering (EE) 2024 is part of GATE Electrical Engineering (EE) Mock Test Series 2025 preparation. The Test: Symmetrical Components - 2 questions and answers have been prepared according to the Electrical Engineering (EE) exam syllabus.The Test: Symmetrical Components - 2 MCQs are made for Electrical Engineering (EE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Symmetrical Components - 2 below.
Solutions of Test: Symmetrical Components - 2 questions in English are available as part of our GATE Electrical Engineering (EE) Mock Test Series 2025 for Electrical Engineering (EE) & Test: Symmetrical Components - 2 solutions in Hindi for GATE Electrical Engineering (EE) Mock Test Series 2025 course. Download more important topics, notes, lectures and mock test series for Electrical Engineering (EE) Exam by signing up for free. Attempt Test: Symmetrical Components - 2 | 10 questions in 45 minutes | Mock test for Electrical Engineering (EE) preparation | Free important questions MCQ to study GATE Electrical Engineering (EE) Mock Test Series 2025 for Electrical Engineering (EE) Exam | Download free PDF with solutions
Test: Symmetrical Components - 2 - Question 1
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The transmission line equations are given by the below set of equations based on the line diagram as given. Identify the missing term marked as ’?’.
Vs = A*Vr + B*Ir
Is = C*Vr + ?*Ir

Detailed Solution for Test: Symmetrical Components - 2 - Question 1

Using KVL to the line diagram,
Vs = (1+YZ)*Vr + Z*Ir
Is = Y*Vr + Ir.

Test: Symmetrical Components - 2 - Question 2
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For a given power system, its zero and maximum regulation will occur at the impedance angle of

Detailed Solution for Test: Symmetrical Components - 2 - Question 2

At θ = 45°, ZVR and maximum VR coincide.

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Test: Symmetrical Components - 2 - Question 3
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The maximum power delivered to the load for short transmission line is at

Detailed Solution for Test: Symmetrical Components - 2 - Question 3

Maximum power occurs for β = δ.

Test: Symmetrical Components - 2 - Question 4
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For a 35 km transmission line having a lumped impedance of the line as 20 ohms, is required to be shown in the ABCD form, it is given as
Detailed Solution for Test: Symmetrical Components - 2 - Question 4

From the given length, it is a short TL. Hence,

Then ABCD paramteres of this circuit is 

Test: Symmetrical Components - 2 - Question 5
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The sending end active power for a 20 km transmission line with Vs as the sending end voltage and Vr as receiving end voltage, can be given by most appropriately
Detailed Solution for Test: Symmetrical Components - 2 - Question 5

The sending end active power is 

Test: Symmetrical Components - 2 - Question 6
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The receiving end active power for a short transmission line is (where the angles have their usual meanings)
Detailed Solution for Test: Symmetrical Components - 2 - Question 6

Receiving end active power for a short transmission line is

Test: Symmetrical Components - 2 - Question 7
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The charging currents due to shunt admittance can be neglected for ______ transmission line?
Detailed Solution for Test: Symmetrical Components - 2 - Question 7

The shun admittance for lines more than 100 km become very prominent and can not be neglected.

Test: Symmetrical Components - 2 - Question 8
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The maximum real active power delivered to the load is defined most accurately by
Detailed Solution for Test: Symmetrical Components - 2 - Question 8

The maximum real active power delivered to the load is 

Test: Symmetrical Components - 2 - Question 9
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If it is tried to represent the active and reactive power on a circle, then the radius would be
Detailed Solution for Test: Symmetrical Components - 2 - Question 9

The complex power, 
Taking the real power and reactive power, squaring and adding them gives an equation of circle having radius 

Test: Symmetrical Components - 2 - Question 10
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The simplified ABCD representation of a 40 km transmission line is best given as
Detailed Solution for Test: Symmetrical Components - 2 - Question 10

From the given length, it is a short TL. Hence,

Then ABCD parameters of this circuit is 

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