In a lossless medium (₁ = 9, f₁ = 1) the propagating plane wave has the strength of the magnetic field Hy (z, t) = H cos(wt - Boz+y+). The frequency of the wave is 5 MHz. The figure shows the strength of the plane wave magnetic field as a function of the location at the moment in time t = 0. Wave length m Define: (Give the answer to at least two significant figures.) Wave number Bo The amplitude of the magnetic field strength Hm A/m rad/m Angular frequency w -10° rad/s Progression speed v Mm/s 5 Wave impedance n M 5 10 15 V/A -5 0 Amplitude of electric field strength Em V/m 20 z [m] 25 30 35 40

In a lossless medium (₁ = 9, f₁ = 1) the propagating plane wave has the strength of the magnetic field Hy (z, t) = H cos(wt - Boz+y+). The frequency of the wave is 5 MHz. The figure shows the strength of the plane wave magnetic field as a function of the location at the moment in time t = 0. Wave length m Define: (Give the answer to at least two significant figures.) Wave number Bo The amplitude of the magnetic field strength Hm A/m rad/m Angular frequency w -10° rad/s Progression speed v Mm/s 5 Wave impedance n M 5 10 15 V/A -5 0 Amplitude of electric field strength Em V/m 20 z [m] 25 30 35 40

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Question

In a lossless medium (₁ = 9, f₁ = 1) the propagating plane wave has the strength of the magnetic field
Hy (z, t) = H cos(wt - Boz+y+). The frequency of the wave is 5 MHz. The figure shows the strength of the plane wave
magnetic field as a function of the location at the moment in time t = 0.
Wave length >
m
Define: (Give the answer to at least two significant figures.)
Wave number Bo
The amplitude of the magnetic field strength Hm
A/m
rad/m
Angular frequency w
-10° rad/s
Progression speed v
Mm/s
Wave impedance n
m
10 15
V/A
5
-5
V/m
0 5
Amplitude of electric field strength Em
20
z [m]
25
30 35 40

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