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Test: Networks Theorem - Electronics and Communication Engineering (ECE) MCQ


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20 Questions MCQ Test GATE ECE (Electronics) Mock Test Series 2025 - Test: Networks Theorem

Test: Networks Theorem for Electronics and Communication Engineering (ECE) 2024 is part of GATE ECE (Electronics) Mock Test Series 2025 preparation. The Test: Networks Theorem questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Test: Networks Theorem MCQs are made for Electronics and Communication Engineering (ECE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Networks Theorem below.
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Test: Networks Theorem - Question 1

vTH , RTH = ?

Detailed Solution for Test: Networks Theorem - Question 1

 

 

Test: Networks Theorem - Question 2

IN  , RN = ?

Detailed Solution for Test: Networks Theorem - Question 2

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Test: Networks Theorem - Question 3

Which theorem assists in replacement of an impedance branch over the network by the other network comprising different circuit components, without affecting the V-I relations throughout the entire network?

Test: Networks Theorem - Question 4

A simple equivalent circuit of the 2 terminal network shown in fig.  is

Detailed Solution for Test: Networks Theorem - Question 4

After killing all source equivalent resistance is R
Open circuit voltage = v1

Test: Networks Theorem - Question 5

Detailed Solution for Test: Networks Theorem - Question 5

The short circuit current across the terminal is

Test: Networks Theorem - Question 6

VTH, RTH  = ?

Detailed Solution for Test: Networks Theorem - Question 6

For the calculation of RTH if we kill the sources
then 20Ω resistance is inactive because 5 A source will
be open circuit
RTH = 30+25 = 55 Ω,
vTH = 5+5X30 = 155V

Test: Networks Theorem - Question 7

RTH = ? 

Detailed Solution for Test: Networks Theorem - Question 7

After killing the source, RTH = 6 Ω

Test: Networks Theorem - Question 8

The Thevenin's equivalent circuit of the network shown in figure is across a-b is

Detailed Solution for Test: Networks Theorem - Question 8

Test: Networks Theorem - Question 9

For In the the circuit shown in fig. a network and its Thevenin and Norton equivalent are given

The value of the parameter are

VTH  RTH  I RRN

Detailed Solution for Test: Networks Theorem - Question 9

v∝ = 2 x 2 + 4 = 8 V = vTH
RTH = 2 + 3 = 5Ω = RN

Test: Networks Theorem - Question 10

v1 = ?

Detailed Solution for Test: Networks Theorem - Question 10

If we solve this circuit direct, we have to deal with three variable. But by simple manipulation variable can be reduced to one. By changing the LHS and RHS in Thevenin equivalent

Test: Networks Theorem - Question 11

What is the Thevenin’s voltage across the a-b terminal in the given circuit? 

Detailed Solution for Test: Networks Theorem - Question 11

Concept:

To find out the Thevenin’s voltage (Vth) across the a-b terminal it will be open-circuited

From the figure we may conclude that Thevenin’s voltage (Vth) across the a-b terminal will be equal to the voltage drop across 6 Ω.

Applying voltage divider across 6 Ω:

Test: Networks Theorem - Question 12

A circuit is given in fig.  Find the Thevenin equivalent as given in question..

As viewed from terminal x and x' is

Detailed Solution for Test: Networks Theorem - Question 12

We Thevenized the left side of xx'and source transformed right side of yy'

Test: Networks Theorem - Question 13

A circuit is given in fig. Find theThevenin equivalent as given in question.

As viewed from terminal y and y' is

Detailed Solution for Test: Networks Theorem - Question 13

Thevenin equivalent seen from terminal yy' is

Test: Networks Theorem - Question 14

A practical DC current source provide 20 kW to a 50Ω load and 20 kW to a 200 Ω load. The maximum power, that can drawn from it, is

Detailed Solution for Test: Networks Theorem - Question 14



(r + 200)2 = 4(r + 50)2
⇒ r = 100 Ω
i = 30A, 

Test: Networks Theorem - Question 15

In the circuit of fig. P.1.4.15–16 when R = 0 Ω , the current iR equals 10 A.

The value of R, for which it absorbs maximum power, is

Detailed Solution for Test: Networks Theorem - Question 15

Thevenized the circuit across R,RTH = 2 Ω

Test: Networks Theorem - Question 16

In the circuit of fig when R = 0 Ω , the current iR equals 10 A.

The maximum power will be

Detailed Solution for Test: Networks Theorem - Question 16

Test: Networks Theorem - Question 17

A battery has a short-circuit current of 30 A and an open circuit voltage of 24 V. If the battery is connected to an electric bulb of resistance 2Ω, the power dissipated by the bulb is

Detailed Solution for Test: Networks Theorem - Question 17

rbattery VocIsc = 24/30 = 0.8 ohms

P = V2oc / ( r + 2)2   * 2

 = 24/ ( .8 + 2)2  * 2

= 146.9 W

Test: Networks Theorem - Question 18

The following results were obtained from measurements taken between the two terminal of a resistive network

The Thevenin resistance of the network is

Detailed Solution for Test: Networks Theorem - Question 18

Test: Networks Theorem - Question 19

A DC voltmeter with a sensitivity of 20 kΩ/V is used to find the Thevenin equivalent of a linear network. Reading on two scales are as follows

(a) 0 - 10 V scale  : 4 V
(b) 0 - 50 V scale : 5 V

The Thevenin voltage and the Thevenin resistance of the network is

Detailed Solution for Test: Networks Theorem - Question 19

 = 50 μ A

For 0 - 10 V scale Rm = 10 x 20k = 200 kΩ
For 0 - 50 V scale Rm = 50 x 20k = 1 MΩ
For 4 V reading 
vTH = 20μRTH + 20µ x 200k = 4 + 20μRTH     ...(i) 
For 5V reading 
UTH = 5μ x RTH + 5μ x 1M = 5 + 5μRTH        ...(ii)
Solving (i) and (ii) 

Test: Networks Theorem - Question 20

Consider the network shown in fig.

The power absorbed by load resistance RL is shown in table :

 Find the Thevenin equivalent.

Detailed Solution for Test: Networks Theorem - Question 20







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