Explanation Given Data: Refer to Figure P2.26 in the textbook for the given circuit. From the given circuit, Z 0 = 50 Ω R L = 75 Ω The value of frequency ( f ) is 10 MHz. Voltage standing-wave ratio on the line ( S ) is 3. Formula used: Write the expressions for voltage reflection coefficient in terms of standing-wave ratio as follows: | Γ | = S − 1 S + 1 (1) Here, S is the voltage standing-wave ratio. Write the expression for load impedance for the given circuit as follows: Z L = R L − j X C (2) Here, R L is the load resistance and X C is the load reactance. Write the expression for load reactance as follows: X C = 1 2 π f C (3) Here, f is the frequency and C is the unknown capacitance of the load capacitor. Write the expression for voltage reflection coefficient for the given circuit as follows: Γ = Z L − Z 0 Z L + Z 0 (4) Here, Z 0 is the output impedance of the lossless transmission line. Calculation: Substitute 3 for S in Equation (1) to obtain the value of voltage reflection coefficient. | Γ | = 3 − 1 3 + 1 = 2 4 = 0.5 From Equation (2), substitute ( R L − j X C ) for Z L in Equation (4) as follows: Γ = ( R L − j X C ) − Z 0 ( R L − j X C ) + Z 0 Simplify the expression as follows: Γ = ( R L − Z 0 ) − j X C ( R L + Z 0 ) − j X C Take modulus on both side of the expression as follows: | Γ | = | ( R L − Z 0 ) − j X C ( R L + Z 0 ) − j X C | = ( R L − Z 0 ) 2 + ( − X C ) 2 ( R L + Z 0 ) 2 + ( − X C ) 2 = ( R L − Z 0 ) 2 + ( X C ) 2 ( R L + Z 0 ) 2 + ( X C ) 2 Take square on both sides of the expression as follows: | Γ | 2

Fundamentals of Applied Electromagnetics (7th Edition)

7th Edition

ISBN: 9780133356816

Author: Fawwaz T. Ulaby, Umberto Ravaioli

Publisher: PEARSON

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Chapter 2, Problem 26P

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Find the value of unknown capacitance C in the circuit in Figure P2.26 in the textbook.

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Chapter 2, Problem 24P

Chapter 2, Problem 27P

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Chapter 2 Solutions

Fundamentals of Applied Electromagnetics (7th Edition)

Ch. 2.2 - What is a transmission line? When should...Ch. 2.2 - Prob. 2CQ Ch. 2.2 - What constitutes a TEM transmission line?Ch. 2.2 - Prob. 4CQ Ch. 2.2 - Prob. 1E Ch. 2.2 - Calculate the transmission line parameters at 1...Ch. 2.4 - Verify that Eq. (2.26a) indeed provides a solution...Ch. 2.4 - A two-wire air line has the following line...Ch. 2.6 - The attenuation constant represents ohmic losses....Ch. 2.6 - How is the wavelength of the wave traveling on...

Ch. 2.6 - Prob. 7CQ Ch. 2.6 - What is a standing-wave pattern? Why is its period...Ch. 2.6 - Prob. 9CQ Ch. 2.6 - For a lossless transmission line, = 20.7 cm at 1...Ch. 2.6 - A lossless transmission line uses a dielectric...Ch. 2.6 - Prob. 7E Ch. 2.6 - Prob. 8E Ch. 2.6 - Prob. 10E Ch. 2.6 - A 140 lossless line is terminated in a load...Ch. 2.8 - What is the difference between the characteristic...Ch. 2.8 - What is a quarter-wave transformer? How can it be...Ch. 2.8 - Prob. 12CQ Ch. 2.8 - Prob. 13CQ Ch. 2.8 - if the input impedance of a lossless line is...Ch. 2.8 - Prob. 12E Ch. 2.8 - A 300 feedline is to be connected to a 3 m long,...Ch. 2.9 - According to Eq. (2.102b), the instantaneous value...Ch. 2.9 - Prob. 16CQ Ch. 2.9 - What fraction of the incident power is delivered...Ch. 2.9 - Prob. 18CQ Ch. 2.9 - For a 50 lossless transmission line terminated in...Ch. 2.9 - For the line of Exercise 2-14, what is the...Ch. 2.10 - The outer perimeter of the Smith chart represents...Ch. 2.10 - What is an SWR circle? What quantities are...Ch. 2.10 - What line length corresponds to one complete...Ch. 2.10 - Which points on the SWR circle correspond to...Ch. 2.10 - Prob. 23CQ Ch. 2.10 - Use the Smith chart to find the values of ...Ch. 2.11 - Prob. 24CQ Ch. 2.11 - Prob. 25CQ Ch. 2.12 - What is transient analysis used for?Ch. 2.12 - Prob. 28CQ Ch. 2.12 - What is the difference between the bounce diagram...Ch. 2 - A transmission line of length l connects a load to...Ch. 2 - Show that the transmission-line model shown in...Ch. 2 - A 1 GHz parallel-plate transmission line consists...Ch. 2 - For the parallel-plate transmission line of...Ch. 2 - In addition to not dissipating power, a lossless...Ch. 2 - For a distortionless line [see Problem 2.13] with...Ch. 2 - Prob. 15P Ch. 2 - A transmission line operating at 125 MHz has Z0 =...Ch. 2 - Prob. 17P Ch. 2 - Polyethylene with r=2.25 is used as the insulating...Ch. 2 - Prob. 20P Ch. 2 - Prob. 21P Ch. 2 - Prob. 22P Ch. 2 - Prob. 23P Ch. 2 - A 50 lossless line terminated in a purely...Ch. 2 - Prob. 26P Ch. 2 - Prob. 27P Ch. 2 - Prob. 29P Ch. 2 - Prob. 30P Ch. 2 - Two half-wave dipole antennas, each with an...Ch. 2 - Prob. 34P Ch. 2 - For the lossless transmission line circuit shown...Ch. 2 - A lossless transmission line is terminated in a...Ch. 2 - The input impedance of a 31 cm long lossless...Ch. 2 - FM broadcast station uses a 300 transmission line...Ch. 2 - A generator with Vg=300 V and Zg = 50 is...Ch. 2 - If the two-antenna configuration shown in Fig....Ch. 2 - For the circuit shown in Fig. P2.44, calculate the...Ch. 2 - The circuit shown in Fig. P2.45 consists of a 100 ...Ch. 2 - An antenna with a load impedance ZL=(75+j25) is...Ch. 2 - Prob. 47P Ch. 2 - Use the Smith chart to determine the input...Ch. 2 - Prob. 52P Ch. 2 - A lossless 50 transmission line is terminated in...Ch. 2 - A lossless 50 transmission line is terminated in...Ch. 2 - Use the Smith chart to find yL if zL = 1.5 j0.7.Ch. 2 - Prob. 59P Ch. 2 - Prob. 62P Ch. 2 - Determine Zin of the feed line shown in Fig....Ch. 2 - Prob. 73P Ch. 2 - A 25 antenna is connected to a 75 lossless...Ch. 2 - Prob. 75P Ch. 2 - Prob. 76P Ch. 2 - Prob. 77P Ch. 2 - In response to a step voltage, the voltage...Ch. 2 - Suppose the voltage waveform shown in Fig. P2.77...Ch. 2 - For the circuit of Problem 2.80, generate a bounce...Ch. 2 - In response to a step voltage, the voltage...

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