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Test: Transients - Electronics and Communication Engineering (ECE) MCQ


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10 Questions MCQ Test - Test: Transients

Test: Transients for Electronics and Communication Engineering (ECE) 2024 is part of Electronics and Communication Engineering (ECE) preparation. The Test: Transients questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Test: Transients 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: Transients below.
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Test: Transients - Question 1

The resonant circuit in a waveguide refers to the

Detailed Solution for Test: Transients - Question 1

Answer: a
Explanation: The resonant circuit refers to the tank circuit. It is parallel combination of an inductor and a capacitor.

Test: Transients - Question 2

When a waveguide is terminated, the mode of the guided termination will be

Detailed Solution for Test: Transients - Question 2

Answer: b
Explanation: A waveguide mode with a guided termination is represented by TEmnp and TMmnp. Here m and n are the orders of the waveguide and p is the order of the resonant cavity. It is always a non-zero value.

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Test: Transients - Question 3

The cut off frequency of a waveguide with resonant cavity is given by 

Detailed Solution for Test: Transients - Question 3

Answer: a
Explanation: The cut off frequency of the waveguide of dimensions a x b with the resonant cavity of dimension d is given by fc = √((m/a)2 + (n/b)2 + (p/d)2)/2. Here m and n are the orders of the waveguide, p is the order of the cavity and v is the velocity

Test: Transients - Question 4

The power of a wave in a transmission line, when the current and the resistance are 5A and 120 ohm respectively is

Detailed Solution for Test: Transients - Question 4

Answer: a
Explanation: The power of a line is given by P = I2R. On substituting for I = 5 and R = 120, we get P = 52 x 120 = 3000 units.

Test: Transients - Question 5

The power of a wave having a magnetic field intensity of 2.5 units is

Detailed Solution for Test: Transients - Question 5

Answer: a
Explanation: The power of a wave is given by P = 0.5 η H2, where η is the intrinsic impedance and H is the magnetic field intensity. On substituting for η = 377 and H = 2.5, we get P = 0.5 x 377 x 2.52 = 1.17 kilo watts.

Test: Transients - Question 6

The power of a wave having an electric field strength of 12.8 units is

Detailed Solution for Test: Transients - Question 6

Answer: a
Explanation: The power of a wave is given by P = 0.5 E2/η, where E is the electric field intensity and η is the intrinsic impedance. On substituting for E = 12.8 and η = 377, we get P = 0.5 x 12.82/377 = 0.217 units.

Test: Transients - Question 7

The form or mode of propagation is determined by which factors?

Detailed Solution for Test: Transients - Question 7

Answer: c
Explanation: The form and the mode of propagation of the wave in a waveguide is determined by the type and location of the excitation device.

Test: Transients - Question 8

The phase of the wave after the installation of the guided terminations will be

Detailed Solution for Test: Transients - Question 8

Answer: a
Explanation: Using a guided termination, the guides serves as a reflector. If the distance between the exciter and the wall is properly adjusted, the transmitted and the reflected wave will be in phase.

Test: Transients - Question 9

The exciter of the waveguide in a transmission line is the

Detailed Solution for Test: Transients - Question 9

Answer: d
Explanation: The waveguide is usually excited by the antenna rod. The reflection depends on the phase of excitation and the antenna current

Test: Transients - Question 10

A waveguide imitates which type of filter characteristics?

Detailed Solution for Test: Transients - Question 10

Answer: b
Explanation: A waveguide passes only high frequency waves (in GHz range) and attenuates low frequencies. This is the characteristic of a high pass filter.

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