Microwave Communication MCQs

Welcome to our comprehensive collection of Multiple Choice Questions (MCQs) on Microwave Communication, 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 Microwave Communication 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 Microwave Communication mcq questions that explore various aspects of Microwave Communication problems. Each MCQ is crafted to challenge your understanding of Microwave Communication 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 Microwave Communication 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 Microwave Communication. 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 Microwave Communication knowledge to the test? Let's get started with our carefully curated MCQs!

Microwave Communication MCQs | Page 41 of 41

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Q401.
In a multicavity klystron amplifier the electron velocity of the order of
Discuss
Answer: (c).10⁢ m/s
Discuss
Answer: (b).the flow of electromagnetic energy is infinite
Q403.
In a rectangular waveguide cutoff wavelength for TE₁₀ mode is 8 cm. Then cutoff wavelength for TEβ‚‚β‚€ mode is
Discuss
Answer: (c).4 cm
Discuss
Answer: (c).both (a) and (b)
Q405.
If a and b are the width and height of rectangular wave-guide the cut off wavelength Ξ»c for TEβ‚‚β‚€ mode is equal to
Discuss
Answer: (a).a
Q406.
A TEM wave is incident normally on a perfect conductor. The E and H fields at boundary will respectively be
Discuss
Answer: (a).minimum and maximum