The expression for power delivered to a load , when a line is matched and supplied with a source of Vg with generator impedance Rg +jXg is:

generator impedance does not cause any losses

When a load ZL is matched to a line, the value of standing wave ratio is:

insufficient data to calculate SWR

The expression for power delivered to a load , when a line is matched and supplied with a source of Vg with generator impedance Rg +jXg is:

generator impedance does not cause any losses

When a load ZL is matched to a line, the value of standing wave ratio is:

insufficient data to calculate SWR

20 + Mcqs in Generator Load Mismatches in Microwave Engineering Page 1 McqOptions

1.	If the power delivered to a load is 0.04w, then the normalized generator impedance if the source use is 4V at 2GHz and the generator impedance is real and characteristic impedance of the transmission line is 50Ω is:
A.	1 Ω
B.	1+j Ω
C.	1-j Ω
D.	50 Ω
Answer» B. 1+j Ω

Discussion

2.	For a matched transmission line with a generator impedance of 50Ω and the source being 4V,1GHZ,then the maximum power delivered to the line is:
A.	0.4 watt
B.	0.04 watt
C.	0.5 watt
D.	no power is delivered
Answer» C. 0.5 watt

Discussion

3.	After conjugate impedance matching the input impedance used for matching after normalization was 1+j with the characteristic impedance of the transmission line being 100Ω, then the generator impedance must have been:
A.	100+100j
B.	1+j
C.	100-100j
D.	1-j
Answer» D. 1-j

Discussion

4.	If the generator impedance of a source connected to a transmission line is 50+j100Ω, then for conjugate matching to occur , the input impedance must be:
A.	50-j100 Ω
B.	50+100 Ω
C.	50 Ω
D.	one of the mentioned
Answer» B. 50+100 Ω

Discussion

5.	If a transmission line is exited from a source of 4V at 1.2GHz frequency with a generator impedance of 4+j3 with a characteristic impedance of the transmission line 50Ω,then the power delivered to the load is:
A.	0.1 watt
B.	0.9 watt
C.	0.8 watt
D.	1watt
Answer» D. 1watt

Discussion

6.	The expression for power delivered to a load , when a line is matched and supplied with a source of Vg with generator impedance Rg +jXg is:
A.	0.5*Vg2/Rg
B.	0.5*Vg2Rg/4(Rg2+ Xg2)
C.	Rg/4(Rg2+ Xg2)
D.	generator impedance does not cause any losses
Answer» C. Rg/4(Rg2+ Xg2)

Discussion

7.	The value of transmission co efficient when a transmission line is matched to a load is:
A.	1
B.	0
C.	0.5
D.	0.707
Answer» B. 0

Discussion

8.	The value of reflection co efficient when a transmission line is matched to the load is:
A.	1
B.	0
C.	0.707
D.	cannot be determined
Answer» C. 0.707

Discussion

9.	When a load ZL is matched to a line, the value of standing wave ratio is:
A.	1
B.	0
C.	infinity
D.	insufficient data to calculate SWR
Answer» B. 0

Discussion

10.	When a load is matched to a transmission line, the condition that is satisfied when matched is:
A.	ZL=Z0
B.	ZL=2Z00
C.	ZL=Zin
D.	ZL=2Zin
Answer» B. ZL=2Z00

Discussion

11.	IF_THE_POWER_DELIVERED_TO_A_LOAD_IS_0.04W,_THEN_THE_NORMALIZED_GENERATOR_IMPEDANCE_IF_THE_SOURCE_USE_IS_4V_AT_2GHZ_AND_THE_GENERATOR_IMPEDANCE_IS_REAL_AND_CHARACTERISTIC_IMPEDANCE_OF_THE_TRANSMISSION_LINE_IS_50‚ÂÀ√≠¬¨¬©_IS:?$#
A.	1 ‚âà√≠¬¨¬©
B.	1+j ‚âà√≠¬¨¬©
C.	1-j ‚âà√≠¬¨¬©
D.	50 ‚âà√≠¬¨¬©
Answer» B. 1+j ‚âà√≠¬¨¬©

Discussion

12.	FOR_A_MATCHED_TRANSMISSION_LINE_WITH_A_GENERATOR_IMPEDANCE_OF_50‚ÂÀ√≠¬¨¬©_AND_THE_SOURCE_BEING_4V,1GHZ,THEN_THE_MAXIMUM_POWER_DELIVERED_TO_THE_LINE_IS:?$#
A.	0.4 watt
B.	0.04 watt
C.	0.5 watt
D.	no power is delivered
Answer» C. 0.5 watt

Discussion

13.	After conjugate impedance matching the input impedance used for matching after normalization was 1+j with the characteristic impedance of the transmission line being 100‚âà√≠¬¨¬©, then the generator impedance must have been?#
A.	100+100j
B.	1+j
C.	100-100j
D.	1-j
Answer» D. 1-j

Discussion

14.	If the generator impedance of a source connected to a transmission line is 50+j100‚âà√≠¬¨¬©, then for conjugate matching to occur , the input impedance must be:$
A.	50-j100 ‚âà√≠¬¨¬©
B.	50+100 ‚âà√≠¬¨¬©
C.	50 ‚âà√≠¬¨¬©
D.	one of the mentioned
Answer» B. 50+100 ‚âà√≠¬¨¬©

Discussion

15.	If a transmission line is exited from a source of 4V at 1.2GHz frequency with a generator impedance of 4+j3 with a characteristic impedance of the transmission line 50‚âà√≠¬¨¬©,then the power delivered to the load is:$
A.	0.1 watt
B.	0.9 watt
C.	0.8 watt
D.	1watt
Answer» D. 1watt

Discussion

16.	The expression for power delivered to a load , when a line is matched and supplied with a source of V_g with generator impedance R_g +jX_g is:
A.	0.5*V<sub>g</sub><sup>2</sup>/R<sub>g</sub>
B.	0.5*V<sub>g</sub><sup>2</sup>R<sub>g</sub>/4(R<sub>g</sub><sup>2</sup>+ X<sub>g</sub><sup>2</sup>)
C.	R<sub>g</sub>/4(R<sub>g</sub><sup>2</sup>+ X<sub>g</sub><sup>2</sup>)
D.	generator impedance does not cause any losses
Answer» C. R<sub>g</sub>/4(R<sub>g</sub><sup>2</sup>+ X<sub>g</sub><sup>2</sup>)

Discussion

17.	The value of transmission co efficient when a transmission line is matched to a load is:
A.	1
B.	0
C.	0.5
D.	0.707
Answer» B. 0

Discussion

18.	The value of reflection co efficient when a transmission line is matched to the load is:
A.	1
B.	0
C.	0.707
D.	cannot be determined
Answer» C. 0.707

Discussion

19.	When a load Z_L is matched to a line, the value of standing wave ratio is:
A.	1
B.	0
C.	infinity
D.	insufficient data to calculate SWR
Answer» B. 0

Discussion

20.	When a load is matched to a transmission line, the condition that is satisfied when matched is:
A.	Z<sub>L</sub>=Z<sub>0</sub>
B.	Z<sub>L</sub>=2Z0<sub>0</sub>
C.	Z<sub>L</sub>=Z<sub>in</sub>
D.	Z<sub>L</sub>=2Z<sub>in</sub>
Answer» B. Z<sub>L</sub>=2Z0<sub>0</sub>

Discussion

Explore topic-wise MCQs in Microwave Engineering.

If the power delivered to a load is 0.04w, then the normalized generator impedance if the source use is 4V at 2GHz and the generator impedance is real and characteristic impedance of the transmission line is 50Ω is:

For a matched transmission line with a generator impedance of 50Ω and the source being 4V,1GHZ,then the maximum power delivered to the line is:

After conjugate impedance matching the input impedance used for matching after normalization was 1+j with the characteristic impedance of the transmission line being 100Ω, then the generator impedance must have been:

If the generator impedance of a source connected to a transmission line is 50+j100Ω, then for conjugate matching to occur , the input impedance must be:

If a transmission line is exited from a source of 4V at 1.2GHz frequency with a generator impedance of 4+j3 with a characteristic impedance of the transmission line 50Ω,then the power delivered to the load is:

The expression for power delivered to a load , when a line is matched and supplied with a source of Vg with generator impedance Rg +jXg is:

The value of transmission co efficient when a transmission line is matched to a load is:

The value of reflection co efficient when a transmission line is matched to the load is:

When a load ZL is matched to a line, the value of standing wave ratio is:

When a load is matched to a transmission line, the condition that is satisfied when matched is:

IF_THE_POWER_DELIVERED_TO_A_LOAD_IS_0.04W,_THEN_THE_NORMALIZED_GENERATOR_IMPEDANCE_IF_THE_SOURCE_USE_IS_4V_AT_2GHZ_AND_THE_GENERATOR_IMPEDANCE_IS_REAL_AND_CHARACTERISTIC_IMPEDANCE_OF_THE_TRANSMISSION_LINE_IS_50‚ÂÀ√≠¬¨¬©_IS:?$#

FOR_A_MATCHED_TRANSMISSION_LINE_WITH_A_GENERATOR_IMPEDANCE_OF_50‚ÂÀ√≠¬¨¬©_AND_THE_SOURCE_BEING_4V,1GHZ,THEN_THE_MAXIMUM_POWER_DELIVERED_TO_THE_LINE_IS:?$#

After conjugate impedance matching the input impedance used for matching after normalization was 1+j with the characteristic impedance of the transmission line being 100‚âà√≠¬¨¬©, then the generator impedance must have been?#

If the generator impedance of a source connected to a transmission line is 50+j100‚âà√≠¬¨¬©, then for conjugate matching to occur , the input impedance must be:$

If a transmission line is exited from a source of 4V at 1.2GHz frequency with a generator impedance of 4+j3 with a characteristic impedance of the transmission line 50‚âà√≠¬¨¬©,then the power delivered to the load is:$

The expression for power delivered to a load , when a line is matched and supplied with a source of Vg with generator impedance Rg +jXg is:

The value of transmission co efficient when a transmission line is matched to a load is:

The value of reflection co efficient when a transmission line is matched to the load is:

When a load ZL is matched to a line, the value of standing wave ratio is:

When a load is matched to a transmission line, the condition that is satisfied when matched is:

The expression for power delivered to a load , when a line is matched and supplied with a source of V_g with generator impedance R_g +jX_g is:

When a load Z_L is matched to a line, the value of standing wave ratio is: