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8:49 PM P You February 12, 5:16 PM OT "446265 B/S Q5. & Determine Yat 500 kHz for a medium in which p, 1, -15, 0. At what velocity will an electromagnetic wave travel in this medium b. The magnetic field in free space is given as; H H cos(wt-ẞz) a, in free space, d=0. Calculate the corresponding electric field from Ampere's law. 06 a. The wave equations derived from Maxwell set of equations are of the form; v=jau(a+jase)H=y2H V²E=jau(+je)E=y²E [14 marks] Show that the propagation constants, y, can be expressed as a function of attenuation a and ẞ where; -+-1) and (1+√(+1) [14 marks] 27. Derive a wave equation from the Faraday's law. b. An electromagnetic wave in free space has a phase shift constant of 0.524 rad/m. The same wave has a phase shift constant of 1.81 rad/m upon entering a perfect dielectric. Assuming that p, 1, find e, and the velocity of propagation. E ==> NOTE: 10 /36m = 8.854 x 10-12; Ho=4 x 10H/m; no = 120m ||| = (14 marks] n

8:49 PM P You February 12, 5:16 PM OT "446265 B/S Q5. & Determine Yat 500 kHz for a medium in which p, 1, -15, 0. At what velocity will an electromagnetic wave travel in this medium b. The magnetic field in free space is given as; H H cos(wt-ẞz) a, in free space, d=0. Calculate the corresponding electric field from Ampere's law. 06 a. The wave equations derived from Maxwell set of equations are of the form; v=jau(a+jase)H=y2H V²E=jau(+je)E=y²E [14 marks] Show that the propagation constants, y, can be expressed as a function of attenuation a and ẞ where; -+-1) and (1+√(+1) [14 marks] 27. Derive a wave equation from the Faraday's law. b. An electromagnetic wave in free space has a phase shift constant of 0.524 rad/m. The same wave has a phase shift constant of 1.81 rad/m upon entering a perfect dielectric. Assuming that p, 1, find e, and the velocity of propagation. E ==> NOTE: 10 /36m = 8.854 x 10-12; Ho=4 x 10H/m; no = 120m ||| = (14 marks] n

Introductory Circuit Analysis (13th Edition)
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...
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8:49 PM P You February 12, 5:16 PM OT "446265 B/S Q5. & Determine Yat 500 kHz for a medium in which p, 1, -15, 0. At what velocity will an electromagnetic wave travel in this medium b. The magnetic field in free space is given as; H H cos(wt-ẞz) a, in free space, d=0. Calculate the corresponding electric field from Ampere's law. 06 a. The wave equations derived from Maxwell set of equations are of the form; v=jau(a+jase)H=y2H V²E=jau(+je)E=y²E [14 marks] Show that the propagation constants, y, can be expressed as a function of attenuation a and ẞ where; -+-1) and (1+√(+1) [14 marks] 27. Derive a wave equation from the Faraday's law. b. An electromagnetic wave in free space has a phase shift constant of 0.524 rad/m. The same wave has a phase shift constant of 1.81 rad/m upon entering a perfect dielectric. Assuming that p, 1, find e, and the velocity of propagation. E ==> NOTE: 10 /36m = 8.854 x 10-12; Ho=4 x 10H/m; no = 120m ||| = (14 marks] n
Transcribed Image Text:8:49 PM P You February 12, 5:16 PM OT "446265 B/S Q5. & Determine Yat 500 kHz for a medium in which p, 1, -15, 0. At what velocity will an electromagnetic wave travel in this medium b. The magnetic field in free space is given as; H H cos(wt-ẞz) a, in free space, d=0. Calculate the corresponding electric field from Ampere's law. 06 a. The wave equations derived from Maxwell set of equations are of the form; v=jau(a+jase)H=y2H V²E=jau(+je)E=y²E [14 marks] Show that the propagation constants, y, can be expressed as a function of attenuation a and ẞ where; -+-1) and (1+√(+1) [14 marks] 27. Derive a wave equation from the Faraday's law. b. An electromagnetic wave in free space has a phase shift constant of 0.524 rad/m. The same wave has a phase shift constant of 1.81 rad/m upon entering a perfect dielectric. Assuming that p, 1, find e, and the velocity of propagation. E ==> NOTE: 10 /36m = 8.854 x 10-12; Ho=4 x 10H/m; no = 120m ||| = (14 marks] n
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