The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer?

EduRev

All Courses

Explore Courses UPSC Exam UPSC Test Series Free Notes EduRev Infinity

Open App

GATE Exam > GATE Questions > The far-zone power density radiated by a heli...

Join the Discussion on the App

The far-zone power density radiated by a helical antenna is approximated as:

The radiated power density is symmetrical with respect to ? and exists only in the upper
hemisphere:

is a constant. The power radiated by the antenna (in watts)
and the maximum directivity of the antenna, respectively, are

a)
1.5C₀, 10dB
b)
1.256C₀, 10dB
c)
1.256C₀, 12dB
d)
1.5C₀, 12dB

Correct answer is option 'B'. Can you explain this answer?

FREE This question is part of

Electronics And Communication - ECE 2016 GATE Paper (Practice Test)

Attempt Test

Attempt this Test

Verified Answer

The far-zone power density radiated by a helical antenna is approximat...

Given

Power density radiated by the antenna

View all questions of this test

View all answers Start learning for free

< Previous Question Next Question >

Explore Courses for GATE exam

Similar GATE Doubts

Consider a lossless antenna with a directive gain of +6db. If 1mW of power is fed to it the total power radiated by the antenna will be

View answer

An antenna a power input of 50 π watt and an efficiency of 90%.The radiation intensity has been found to have a 6-maximum value of 140W per solid angle.The directivity of antenna is ____________.

View answer

The electric filed of a uniform plane wave travelling along the negative z direction is given by thefollowing equation:This wave is incident upon a receiving antenna placed at the origin and whose radiated electricfield towards the incident wave is given by the following equation:The polarization of the incident wave, the polarization of the antenna and losses due to thepolarization mismatch are, respectively,

View answer

A symmetrical three-phase three-wire RYB system is connected to a balanced delta-connected load. The RMS values of the line current and line-to-line voltage are 10 A and 400 V respectively.The power in the system is measured using the two wattmeter method. The first wattmeterconnected between R-line and Y-line reads zero. The reading of the second wattmeter (connectedbetween B-line and Y-lin e) in watt is _________. Correct answer is '-3464.10'. Can you explain this answer?

View answer

A pressure gauge reads 62.3 kPa and 90 kPa respectively at heights of 7 m and 4 m fitted on the side of a tank filled with liquid. What is the approximate density of the liquid on kg/m3?

View answer

The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer?

Share with a Friend

Answer this doubt

Question Description
The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared according to the GATE exam syllabus. Information about The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? covers all topics & solutions for GATE 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer?.

Solutions for The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? in English & in Hindi are available as part of our courses for GATE. Download more important topics, notes, lectures and mock test series for GATE Exam by signing up for free.

Here you can find the meaning of The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer?, a detailed solution for The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? has been provided alongside types of The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice The far-zone power density radiated by a helical antenna is approximated as:The radiated power density is symmetrical with respect to ? and exists only in the upperhemisphere:is a constant. The power radiated by the antenna (in watts)and the maximum directivity of the antenna, respectively, area)1.5C0, 10dBb)1.256C0, 10dBc)1.256C0, 12dBd)1.5C0, 12dBCorrect answer is option 'B'. Can you explain this answer? tests, examples and also practice GATE tests.

Explore Courses for GATE exam