Networks Analysis and Synthesis MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Networks Analysis and Synthesis, a fundamental topic in the field of Electronics and Communication Engineering. Whether you're preparing for competitive exams, honing your problem-solving skills, or simply looking to enhance your abilities in this field, our Networks Analysis and Synthesis MCQs are designed to help you grasp the core concepts and excel in solving problems.

In this section, you'll find a wide range of Networks Analysis and Synthesis mcq questions that explore various aspects of Networks Analysis and Synthesis problems. Each MCQ is crafted to challenge your understanding of Networks Analysis and Synthesis principles, enabling you to refine your problem-solving techniques. Whether you're a student aiming to ace Electronics and Communication Engineering tests, a job seeker preparing for interviews, or someone simply interested in sharpening their skills, our Networks Analysis and Synthesis MCQs are your pathway to success in mastering this essential Electronics and Communication Engineering topic.

Note: Each of the following question comes with multiple answer choices. Select the most appropriate option and test your understanding of Networks Analysis and Synthesis. You can click on an option to test your knowledge before viewing the solution for a MCQ. Happy learning!

So, are you ready to put your Networks Analysis and Synthesis knowledge to the test? Let's get started with our carefully curated MCQs!

Networks Analysis and Synthesis MCQs | Page 9 of 129

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Q81.

The resonant frequency of the circuit shown in figure is

a.

π/4 Hz

b.

4π Hz

c.

√2π Hz

d.

at all frequency

Discuss

Answer: (a).π/4 Hz

Q82.

For the circuit shown in the figure, the time constant RC = 1 ms. The input voltage is V1(t) = √2 sin 10³ t. The output voltage V0(t) is equal to

a.

sin (10³ t - 45°)

b.

sin (10³ t + 45°)

c.

sin (10³ t - 53°)

d.

sin (10³ t + 53°)

Discuss

Answer: (a).sin (10³ t - 45°)

Q83.

Flux linkages ψ and voltages v are related as

a.

A

b.

B

c.

C

d.

D

Discuss

Answer: (b).B

Q84.

Calculate i(t) for t ≥ 0, assuming the switch has been in position A for a long time at t = 0, the switch is moved to position B

a.

A

b.

B

c.

C

d.

D

Discuss

Answer: (c).C

Q85.

In figure, capacitor is uncharged. The switch is closed at t = 0 at t = 0+ di/dt is

a.

100 A/s

b.

-100 A/s

c.

1000 A/s

d.

-1000 A/s

Discuss

Answer: (b).-100 A/s

Q86.

In figure the total inductance of the circuit is

a.

L1 + L2

b.

L1 + L2 + M

c.

L1 + L2 + 2M

d.

L1 + L2 + M

Discuss

Answer: (c).L1 + L2 + 2M

Q87.

In the network of figure, the voltage drops across R1, R2, R3 are 6 V, 8 V and 12 V with polarities as shown. The value of R3 is

a.

12 Ω

b.

8 Ω

c.

5 Ω

d.

3 Ω

Discuss

Answer: (d).3 Ω

Q88.

In figure which is correct at any time t

a.

I = iR + iL

b.

I = iR + iL iC

c.

I = iR + iL - iC

d.

I = iR - iL - iC

Discuss

Answer: (b).I = iR + iL iC

Q89.

In figure, the magnitude of V

a.

must be more than that of Va

b.

must be more than that of Vb

c.

must be more than that of Va or Vb

d.

can be equal to or less than or more than that of Va or Vb

Discuss

Answer: (d).can be equal to or less than or more than that of Va or Vb

Q90.

The driving point impedance of a network is given by following equation. The number of energy storing elements in the network is

a.

1

b.

2

c.

3

d.

4

Discuss

Answer: (b).2

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