If the load connected to a lossless, 75-0 transmission line has a resistance of 100 0, calculate the amount of resistance to be connected in parallel to the load resistance in order to achieve no standing waves along the transmission line. O a. 100 0 O b.0n OC.300 n Od. 75 0 A nonmagnetic material with a permittivity of 4.5€, F/m and a conductivity of 5 x103 S/m is a medium for a uniform plane wave operating at 20 MHz. Determine the intrinsic impedance, Eo = 8.85x1012 Fim Ho = 4TX107 H/m Oa Intrinsic impedance: 149.4061- 22 49° 0 O b.0 Intrinsic impedance: 52 / 45° n Intrinsic impedance: 149.4061 /22 49° 0 Od.

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If the load connected to a lossless, 75-2 transmission line has a resistance of 100 0, calculate the amount of resistance to be connected
standing waves along the transmission line.
parallel to the load resistance in order to achieve no
O a. 100 0
O b.00
OC. 300 0
O d. 750
A nonmagnetic material with a permittivity of 4.5E, F/m and a conductivity of 5 x103 S/m is a medium for a uniform plane wave operating at 20 MHz.
Determine the intrinsic impedance,
E0 = 8.85x10-12 F/m Ho = 4TTX107 Him
Intrinsic impedance: 149.4061- 22.49° 0
O b.0
Intrinsic impedance: 52/ 45° a
Oc.
Intrinsic impedance: 149.4061 / 22.49° o
Od.
Transcribed Image Text:If the load connected to a lossless, 75-2 transmission line has a resistance of 100 0, calculate the amount of resistance to be connected standing waves along the transmission line. parallel to the load resistance in order to achieve no O a. 100 0 O b.00 OC. 300 0 O d. 750 A nonmagnetic material with a permittivity of 4.5E, F/m and a conductivity of 5 x103 S/m is a medium for a uniform plane wave operating at 20 MHz. Determine the intrinsic impedance, E0 = 8.85x10-12 F/m Ho = 4TTX107 Him Intrinsic impedance: 149.4061- 22.49° 0 O b.0 Intrinsic impedance: 52/ 45° a Oc. Intrinsic impedance: 149.4061 / 22.49° o Od.
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