134. A lossless transmission line is terminated in a load which reflects a part of the incident power. The measured VSWR is 2. The percentage of the power that is reflected back is

A.57.73

B.33.33

C.0.11

D.11.11

135. Characteristic impedance of a transmission line is 500. Input impedance of the open-circuited line is Zoc = 100 + j150 Q. When the transmission line is short-circuited, then value of the input impedance will be

A. 50S2

B. 100 + j150S2

C. 7.69 + j 1 1.54S2

D. 7.69 ? j 1 1.54S2

136. A 30-Volts battery with zero source resistance is connected to a coaxial line of characteristic impedance of 50 Ohms at t = 0 second and terminated in an unknown resistive load. The line length is such that it takes 400 gs for an electromagnetic wave to travel from source end to load end and vice-versa. At t = 400 gs, the voltage at the load end is found to be 40 Volts.I The load resistance is

A. 25 Ohms

B. 50 Ohms

C. 75 Ohms

D. 100 Ohms

137. A 30-Volts battery with zero source resistance is connected to a coaxial line of characteristic impedance of 50 Ohms at t = 0 second and terminated in an unknown resistive load. The line length is such that it takes 400 gs for an electromagnetic wave to travel from source end to load end and vice-versa. At t = 400 gs, the voltage at the load end is found to be 40 Volts The steady-state current through the load resistance is

A. 1.2 Amps

B. 0.3 Amps

C. 0.6 Amps

D. 0.4 Amps

138. An air-filled rectangular waveguide has inner dimensions of 3 cm x 2 cm. The wave impedance of the TE20 mode of propagation in the waveguide at frequency of 30 GHz is (free space impedance go =377 CZ)

A. 308 S2

B. 355 SI

C. 400 S2

D. 461 SI

139. The field in a rectangular waveguide of inner dimensions a x b is given by, where Ho is a constant, and a and b are the dimensions along the x-axis and the y-axis respectively. The mode of propagation in the waveguide is

A. TE20

B. TM

C. TM20

D. TEm

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