Dissipation factor for the dielectric is Df= ____

\(1.8×10^6 \frac{σ}{f(MHz)}\)

\(1.8×10^3 \frac{σ}{f(MHz)}\)

Power density of the receiving antenna is given by _________

\(P_D=\frac{P_t G_t}{(4πd/λ)^2}\)

\(P_D=\frac{P_t G_t G_r}{(4πd/λ)^2}\) d) \(P_D=\frac{P_t G_t}{(4π

\(P_D=\frac{P_t G_t}{(4πd)^2}\)

The field strength of the wave at a unit distance from transmitting antenna depends on _____

only the power radiated by the transmitting antenna

only on the power received by the receiving antenna

only on directivity of antenna in vertical and horizontal planes

both on the power radiated by the transmitting antenna & directivity in vertical and horizontal planes

The field strength due to space wave propagation is E=____

\(\frac{2πh_t h_r}{λd^2}E_0\)

\(\frac{4πh_t h_r}{λd^2}E_0\)

\(\frac{2πh_t h_r}{λd^2}E_0\)

\(\frac{4πh_t h_r}{λd^4}E_0\)

Explore topic-wise MCQs in Antennas.

This section includes 10 Mcqs, each offering curated multiple-choice questions to sharpen your Antennas knowledge and support exam preparation. Choose a topic below to get started.

1.	What is the equivalent radius of the earth when the ray appears to be a straight line over a flat earth surface?
A.	0
B.	Infinity
C.	Actual radius
D.	4/3 times actual radius
Answer» C. Actual radius

Discussion

2.	The effective radius of earth is how many times the actual radius of earth at standard atmospheric conditions?
A.	3/4
B.	4/3
C.	1/4
D.	1/3
Answer» B. 4/3

Discussion

3.	Dissipation factor for the dielectric is Df= ____
A.	\(1.8×10^6 \frac{σ}{f(MHz)}\)
B.	\(1.8 \frac{σ}{f(MHz)}\)
C.	\(1.8×10^6\frac{σ}{f(GHz)}\)
D.	\(1.8×10^3 \frac{σ}{f(MHz)}\)
Answer» B. \(1.8 \frac{σ}{f(MHz)}\)

Discussion

4.	The field strength of the surface wave of flat earth is given by ____
A.	E=AE0/d
B.	E=AE0/λ
C.	E=dE0/A
D.	E=λE0/A
Answer» B. E=AE0/λ

Discussion

5.	Spatial attenuation coefficient is given by ____
A.	(4πd/λ)2
B.	(4πλ/d)2
C.	4πλ/d
D.	2c) 4πλ/dd) 4πd/λ
Answer» B. (4πλ/d)2

Discussion

6.	Power density of the receiving antenna is given by _________
A.	\(P_D=\frac{P_t G_t}{4πd^2}\)
B.	\(P_D=\frac{P_t G_t}{(4πd/λ)^2}\)
C.	\(P_D=\frac{P_t G_t G_r}{(4πd/λ)^2}\) d) \(P_D=\frac{P_t G_t}{(4π
D.	\(P_D=\frac{P_t G_t}{(4πd)^2}\)
Answer» B. \(P_D=\frac{P_t G_t}{(4πd/λ)^2}\)

Discussion

7.	What is the condition of roughness of earth for earth to be electrically smooth?
A.	R < 0.1
B.	R > 10
C.	R > 0.1
D.	R > 1
Answer» B. R > 10

Discussion

8.	The field strength of the wave at a unit distance from transmitting antenna depends on _____
A.	only the power radiated by the transmitting antenna
B.	only on the power received by the receiving antenna
C.	only on directivity of antenna in vertical and horizontal planes
D.	both on the power radiated by the transmitting antenna & directivity in vertical and horizontal planes
Answer» E.

Discussion

9.	The path difference given by two-ray model is ___
A.	\(\frac{4πh_t h_r}{λd^2}\)
B.	\(\frac{4πh_t h_r}{d}\)
C.	\(\frac{4h_t h_r}{d}\)
D.	\(\frac{2h_t h_r}{d}\)
Answer» E.

Discussion

10.	The field strength due to space wave propagation is E=____
A.	\(\frac{4πh_t h_r}{λd^2}E_0\)
B.	\(\frac{2πh_t h_r}{λd^2}E_0\)
C.	\(\frac{4πh_t h_r}{λd}E_0\)
D.	\(\frac{4πh_t h_r}{λd^4}E_0\)
Answer» B. \(\frac{2πh_t h_r}{λd^2}E_0\)

Discussion

Explore topic-wise MCQs in Antennas.

What is the equivalent radius of the earth when the ray appears to be a straight line over a flat earth surface?

The effective radius of earth is how many times the actual radius of earth at standard atmospheric conditions?

Dissipation factor for the dielectric is Df= ____

The field strength of the surface wave of flat earth is given by ____

Spatial attenuation coefficient is given by ____

Power density of the receiving antenna is given by _________

What is the condition of roughness of earth for earth to be electrically smooth?

The field strength of the wave at a unit distance from transmitting antenna depends on _____

The path difference given by two-ray model is ___

The field strength due to space wave propagation is E=____