250+ TOP MCQs on Antenna Noise Temperature and Answers

Antennas Multiple Choice Questions on “Antenna Noise Temperature”.

1. Relation between brightness temperature T_B and physical body temperatureT_p is ____
a) T_B=((1-midGamma_s mid^2) T_p)
b) T_B=(T_p/(1-midGamma_s mid^2))
c) T_B=((1-midGamma_s mid)T_p)
d) T_B=((1-midGamma_s mid)^2 T_p)
Answer: a
Clarification: The relation between brightness temperature and the physical body temperature is given by T_B=((1-midGamma_s mid^2) T_p)
Here Γ_s is the reflection coefficient for a given polarization and emissivity =(1-midGamma_s mid^2.)

2. If the reflection co-efficient is ½ then emissivity is ___
a) 3/4
b) 1/4
c) 1/2
d) 3/2
Answer: a
Clarification: Emissivity in terms of reflection coefficient is given by (epsilon=1-midGamma_smid^2=1-frac{1}{4}=frac{3}{4}.)

3. Overall receiver noise temperature expression if T₁, T₂… are amplifier 1, 2, and so on noise Temperature and G₁, G₂, and so on are their gain respectively is_____
a) T = (T_1+frac{T_2}{G_1}+frac{T_3}{G_1 G_2}+⋯ )
b) T = T₁+T₂ (1-G₁)+T₃(1-G₁G₂)+⋯
c) T = (T_1+frac{T_2}{(1-G_1)}+frac{T_3}{(1-G_1 G_2)}+⋯)
d) T = T₁+T₂ (G₁)+T₃(G₁G₂)+⋯
Answer: a
Clarification: Overall receiver noise temperature expression is given by T = (T_1+frac{T_2}{G_1}+frac{T_3}{G_1 G_2}+⋯ )
System Temperature is one of the important factors to determine the antenna sensitivity and SNR.

4. Total noise power of the system is P=_____
a) k(T_A+T_R)B
b) k(T_A+T_R)/B
c) k(T_R)B
d) kB/T_sys
Answer: a
Clarification: The overall noise temperature of the system is the sum of noise temperature of antenna T_A and the receiver surrounding T_R.
⇨ Total noise power of the system is P= k(T_A+T_R)B
⇨ K is Boltzmann’s constant and B is the bandwidth

5. What is the relation between noise temperature introduced by beam T_B and the antenna temperature T_A when the solid angle obtained by the noise source is greater than antenna solid angle?
a) T_A= T_B
b) T_A > T_B
c) T_A < T_B
d) T_A « T_B
Answer: a
Clarification: When the solid angle obtained by the noise source Ω_B is greater than antenna solid angle Ω_A, then relation between noise temperature introduced by beam T_B and the antenna temperatureT_A is given by
T_A= T_B (If Lossless antenna).
For radio astronomy, Ω_B<Ω_A and T_A≠ T_B; ΔT_A=(frac{Omega_B}{Omega_A}T_B)

6. Which expression suits best when the solid angle obtained by the noise source is less than antenna solid angle?
a) P_A Ω_A=P_B Ω_B and ΔT_A=(frac{Omega_B}{Omega_A} T_B)
b) P_A Ω_B=P_B Ω_A and ΔT_A=(frac{Omega_B}{Omega_A} T_B)
c) ΔT_A=(frac{Omega_A}{Omega_B} T_B) and P_A Ω_B=P_B Ω_A
d) ΔT_A=(frac{Omega_A}{Omega_B} T_B) and P_A Ω_A=P_B Ω_B
Answer: a
Clarification: When the solid angle obtained by the noise sourceΩ_B is greater than antenna solid angle Ω_A, then relation between noise temperature introduced by beam T_B and the antenna temperatureT_A is given by
T_A= T_B (If Lossless antenna).
For radio astronomy, Ω_B<Ω_A and T_A≠ T_B; ΔT_A=(frac{Omega_B}{Omega_A} T_B) and P_A Ω_A=P_B Ω_B

7. Expression for noise figure F related to the effective noise temperature T_e is ____
a) (F=1+frac{T_e}{T_o})
b) (F=1+frac{T_0}{T_e})
c) (F=1-frac{T_e}{T_o})
d) (F=1-frac{T_0}{T_e})
Answer: a
Clarification: The noise introduced by antenna is known as the effective noise temperature. The relation between noise figure and effective noise temperature is given by
(F=1+frac{T_e}{T_o}, T_o) is the room temperature.

8. Effective noise temperature T_e in terms of noise figure is ____
a) T_e=T_o (F-1)
b) T_e=T_o/(F-1)
c) T_e=T_o/(F+1)
d) T_e=T_o (F+1)
Answer: a
Clarification: The relation between noise figure and effective noise temperature is given by F=1+(frac{T_e}{T_o})
⇨ F-1=(frac{T_e}{T_o})
⇨ T_e=T_o (F-1)

9. Which of the following statement is false?
a) Noise power of antenna depends on the antenna temperature as well as the noise due to the receiver surroundings
b) Noise figure value lies between 0 and 1
c) Any object with physical temperature greater than 0K radiates energy
d) Noise power per unit bandwidth is kT_A W/Hz
Answer: b
Clarification: The relation between noise figure and effective noise temperature is given by F=1+(frac{T_e}{T_o})
And object with physical temperature greater than 0K radiates energy. So (frac{T_e}{T_o}) > 0 and F > 1
Noise power per unit bandwidth of antenna is kT_A W/Hz while noise power of antenna is kT_AB W

10. Find the effective noise temperature if noise figure is 3 at room temperature (290K)?
a) 290K
b) 580K
c) 289K
d) 195K
Answer: b
Clarification: Room temperature T_o=290K
Noise figure F=1+(frac{T_e}{T_o})
T_e=T_o(F-1)=290(3-1)=580K.

11. What should be the noise figure value at which the effective noise temperature equals to room temperature?
a) 2
b) 1
c) 0
d) 1/T_(o )
Answer: a
Clarification: Noise figure F=1+(frac{T_e}{T_o})
T_e=T_o(F-1)
F-1=1
F=2.