Please answer both subparts If the load connected to a lossless, 75-2 transmission line has a resistance of 100 0, calculate the amount of resistance to be connectedstanding waves along the transmission line.parallel to the load resistance in order to achieve noO a. 100 0O b.00OC. 300 0O d. 750A 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 HimIntrinsic impedance: 149.4061- 22.49° 0O b.0Intrinsic impedance: 52/ 45° aOc.Intrinsic impedance: 149.4061 / 22.49° oOd.

(a) Given, Transmission line resistance (Zo)=75 ohm The transmission line connected to a load , R…

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.

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.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

See similar textbooks

Similar questions

A piece of RG-59B/U Coaxial cable has a nominal capacitance of 0.4 F/m, and 7.5 H inductance per meter. The diameter of the inner conductor as 0.8m, and the dielectric constant of the insulation as 4.97. Find the diameter of the outer conductor in cm. Assume the line is a lossless line?
1. What is the necessary condition for matching transmission lines? In addition, what is a micro strip line? 2. For a distortion less line α = 0.02dB/m, Z0 (R0) = 60Ω and C = 0.2nF/m. Find the resistance and velocity of wave propagation. [Do not forget the units.] 3. For a finite lossless transmission line with open-circuit termination, sketch Xio vs l. Indicate where the sketch is inductive and capacitive.
A piece of RG-59B/U Coaxial cable has a nominal capacitance of 0.9 Farad/meter, and 8 Henry/m inductance per meter. The diameter of the inner conductor as 0.8m, and the dielectric constant of the insulation as 4. Find the diameter of the outer conductor in cm. Assume the line is a lossless line?
A lossless coaxial cable transmission line has L = 200 uH/ft and C = 100 nF/ft. The inner diameter of the outer conductor is 3 cm and the diameter of the inner conductor is 1 cm. What is the dielectric constant of the insulator?
For a lossy medium (or=1.7 S/m, ur=1 and Er=20), a) Calculate the frequency at which the transmission current density and displacement current density magnitudes are equal for the time harmonic field, and b) Calculate the self-impedance at this frequency.
A lossless transmission line has a Zo of 50 ohms and a line velocity of 2.4 x 10^8 m/s. If the operating frequency is 1 MHz. Determine the capacitance in pf.
. A 70 cm long lossless transmission line with characteristics impedance of 50 Ω operating at 5Mhz is terminated with a load of ?? = (65+j80) Ω. If the velocity is 0.8 times the velocity of light, then calculate (a) The reflection co-efficient, also verify the value using the given smith chart. (b) Compute the input impedance using the transmission line input impedance equation 50 Ω line is terminated with an impedance of ??= (90 – j120) Ω. Design a shortcircuited single stub matching circuit using Smith chart that is provided
Q1) A 70 cm long lossless transmission line with characteristics impedance of 50 Ω operating at 5Mhz is terminated with a load of ?? = (65+j80) Ω. If the velocity is 0.8 times the velocity of light, then calculate (a) The reflection co-efficient, also verify the value using the given smith chart.(b) Compute the input impedance using the transmission line input impedance equation.
A 50Ω lossless transmission line is terminated in a load (50+j100) Ω. Using a smith chart, determine the reflection coefficient.
In a lossless medium for which η = 30 π, μr = 1, and H = -0.1 cos (ωt-z)ax +0.5 cos (ωt-z)ay A/m, calculate εr, ω, and E.
It is desired to construct uniform transmission lines using polyethylene (εr = 2.25) as the dielectric medium. Assuming negligible losses, find the inner radius of the outer conductor (in mm) for a 76 Ω coaxial line, where the radius of the center conductor is 0.6 (mm).
A 2-meter, two-wire, lossless line with a characteristic impedance of 250 Ohms connects an antenna and a receiver. The dielectric constant of the line gives a velocity of 2.4x108m/s The antenna is modeled through its Thevenin network, in which a 500-microVolt 100-MHz source is in series with a 200-Ohm resistance. The receiver is modeled as a load impedance. 1. What is the wavelength on the line in meters? 2. What is the phase constant in rad/m? 3. What is the attenuation constant? 4. What is the electrical length of the line in degrees?