Electronics and Communication Engineering (ECE) Exam  >  Electronics and Communication Engineering (ECE) Tests  >  Test: Antenna - Electronics and Communication Engineering (ECE) MCQ

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


Test Description

10 Questions MCQ Test - Test: Antenna

Test: Antenna for Electronics and Communication Engineering (ECE) 2024 is part of Electronics and Communication Engineering (ECE) preparation. The Test: Antenna questions and answers have been prepared according to the Electronics and Communication Engineering (ECE) exam syllabus.The Test: Antenna 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: Antenna below.
Solutions of Test: Antenna questions in English are available as part of our course for Electronics and Communication Engineering (ECE) & Test: Antenna solutions in Hindi for Electronics and Communication Engineering (ECE) course. Download more important topics, notes, lectures and mock test series for Electronics and Communication Engineering (ECE) Exam by signing up for free. Attempt Test: Antenna | 10 questions in 30 minutes | Mock test for Electronics and Communication Engineering (ECE) preparation | Free important questions MCQ to study for Electronics and Communication Engineering (ECE) Exam | Download free PDF with solutions
Test: Antenna - Question 1

In a typical mobile satellite array antenna, if three elements are activated, how many elements are deactivated?

Detailed Solution for Test: Antenna - Question 1

Concept

  • A mobile satellite array antenna consists of 14 dual patch antennas
  • These are located in a truncated cone elevated at an angle of 40∘ to the ground plane
  • Each element has a gain of approximately 8.5dBi
  • This gain is increased by activating a subarray of M adjacent elements that face the satellite
  • A radial divider is used which activates M adjacent elements in the array and deactivates the remaining (14-M) elements

Calculation

We have M =3 ,elements activated

⇒(14 - 3)=11 antenna elements are deactivated

Hence the correct option is A

Test: Antenna - Question 2

Indicate the antenna that is not wideband -

Detailed Solution for Test: Antenna - Question 2

A wideband antenna has approximately or precisely the same operating characteristics as a very wide Passband.

It is distinguished from broadband antennas, where the passband is significant, but the antenna gain and/or radiation pattern need not stay the same over the passband.

Marconi Antenna:

The Marconi antenna is used primarily with frequencies below 2 MHz.

The difference between the Marconi antenna and the Hertz antenna is that the Marconi type requires a conducting path to the ground, and the Hertz type does not. The Marconi antenna is usually a quarter-wave grounded antenna or any odd multiple of a quarter wavelength

1 Crore+ students have signed up on EduRev. Have you? Download the App
Test: Antenna - Question 3

Maximum directivity for an infinitesimal dipole antenna is -

Detailed Solution for Test: Antenna - Question 3

And the radiation resistance is:

The radiation intensity which is given by:

The maximum directivity and maximum effective aperture are:

 

Test: Antenna - Question 4

Which of the following is NOT true with respect to antennas?

Detailed Solution for Test: Antenna - Question 4

Yagi-Uda Antenna:

  • It is a directional antenna and it consists of multiple parallel half-wave dipole elements.
  • It is a directional antenna and it consists of multiple parallel half-wave dipole elements.
  • The direction of maximum radiation is along the axis of the dipole array which is called an end-fire radiation pattern.
  • The reflector and director are both parasitic types.

Characteristics:

  • Usually, Yagi-Uda antenna arrays have low input impedance.
  • It has a high gain.
  • It has relatively low bandwidth.
  • The length of the director is less than λ/2
  • The length of the reflector is greater than λ/2.
  • Its radiation pattern is almost uni-directional.
Test: Antenna - Question 5

What should be the length of  transmitting Antenna for radiating radio waves of 900 MHz

Detailed Solution for Test: Antenna - Question 5

Concept:

  • For transmitting a signal, we need an antenna or an aerial.
  • This antenna should have a size comparable to the wavelength of the signal (at least 1/4 in dimension) so that the antenna properly senses the time variation of the signal.
  • For example, if we have an electromagnetic wave of frequency (f) 20 kHz, the wavelength (λ) is 15 km

Calculation:

Given that,

Radio waves of frequency 900 MHz are transmitted, i.e.,

f = 900 × 106 Hz

Hence the minimum length of the antenna is given as:

Here c is the velocity of light, λ is wavelength and f are frequency of the wave

∴ 

L = 8.3 cm

Test: Antenna - Question 6

The efficiency of an antenna having a resistance of 30 Ω and radiation resistance of 60 Ω is 

Detailed Solution for Test: Antenna - Question 6

Concept:

The antenna efficiency of an antenna is given as:

Rr : Radiation resistance

Ra : Effective Antenna resistance

Calculation:

Given:

Radiation resistance (Rr) = 60 Ω 

Antenna resistance (Ra) = 30 Ω 

 

Test: Antenna - Question 7

What is the length of the antenna needed to a signal of 500 KHz frequency?

Detailed Solution for Test: Antenna - Question 7

Concept:

  • For transmitting a signal, we need an antenna or an aerial.
  • This antenna should have a size comparable to the wavelength of the signal (at least 1/4 in dimension) so that the antenna properly senses the time variation of the signal.
  • For example, if we have an electromagnetic wave of frequency (f) 20 kHz, the wavelength (λ) is 15 km

Calculation:

Given that,

Electromagnetic waves of frequency 500 kHz is transmitted, i.e.,

f =  500 kHz

Hence the minimum length of antenna = 

Here c is the velocity of light, λ is wavelength and f are the frequency of the wave

∴ length of antenna = 
= 150 m

Test: Antenna - Question 8

For a Hertz dipole antenna, the half power beam width (HPBW) in the E-plane is

Detailed Solution for Test: Antenna - Question 8

The radiation pattern of a Hertzian dipole is shown below:


Let us consider, l(OB) = x

∴ 

Point A is  times electric field at point B

It is a half-power bandwidth point.

∠ AOD = Half power bandwidth is

HPBW=90°

Test: Antenna - Question 9

One of the following consists of a non-resonant antenna -

Detailed Solution for Test: Antenna - Question 9

Non-resonant Antennas:

  • Non-resonant Antennas are those for which resonant frequency does not occur.
  • The wave moves in the forward direction and hence does not form a standing wave.
  • The radiation pattern of the radiated wave matches the load impedance in the non-resonant antennas.
  • These non-resonant antennas are non-periodic in nature.
  • Example: Yagi –Uda Antenna, Rhombic Antenna, Ground Antenna. 

Resonant Antennas:

  • When the voltage and current distribution form standing wave patterns, then such types of antennas are called standing wave antennas or resonant antennas.
  • Resonant antennas exhibit a periodic nature.
  • They have traveling waves propagating in forward and backward directions and are called bi-directional traveling-wave antennas.
  • In resonant antennas, radiated waves traveling in opposite directions establish incident and reflected waves.
  • Example: Loop Antenna, Half Wave Dipole Antenna
Test: Antenna - Question 10

The Magnetic field inside a solenoid

Detailed Solution for Test: Antenna - Question 10

1. A cylindrical coil of many tightly wound turns of insulated wire with a general diameter of the coil smaller than its length is called a solenoid.

2. A magnetic field is produced around and within the solenoid. The magnetic field within the solenoid is uniform and parallel to the axis of the solenoid.

From the above explanation, we can see that,

A solenoid is basically a tightly wound helical coil of wire which is made up of a smaller diameter compared to its length.

When a magnetic field is generated inside a solenoid it is very much proportional to both the applied current and the number of turns per unit length hence the magnetic field does not dependent on the diameter of the solenoid and the field inside remains constant.

Information about Test: Antenna Page
In this test you can find the Exam questions for Test: Antenna solved & explained in the simplest way possible. Besides giving Questions and answers for Test: Antenna, EduRev gives you an ample number of Online tests for practice

Top Courses for Electronics and Communication Engineering (ECE)

Download as PDF

Top Courses for Electronics and Communication Engineering (ECE)