f) A linearly polarized plane wave at F MHz travels in the positive z direction in a mediumwith constitutive parameters μr,E,and oSm. The electric field magnitude at z=0 is E Vm,1. Calculate the:i.ii.iii.iv.V.vi.wave impedance;magnitude of the magnetic field at z=0;average power available in a 0.5 m² area perpendicular to the direction ofpropagation at z = 0;time take n for the wave to travel through z cm;distance travelled by the wave before its field strength drops to one tenth of itsvalue at z = 0.Sketch all the relations used above.

Answered: f) A linearly polarized plane wave at F…

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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Similar questions

1. A plane wave with E (z)= [(1 +j)x+ (1-j) ^y] e+/¹0z exists in a lossless medium with &=480, H = μlo. z is in meters. (a) What is the frequency of this wave? (b) Find the corresponding magnetic field, H(z).
A uniform plane wave is propagating in the z-direction in a simple lossless nonmagnetic medium (=Ho). The wavelength is 0.2 m and the phase velocity is 108 m/s. The electric field is polarized along the y-direction and its maximum amplitude is 20 V/m. a) Find the frequency of the wave and the relative permittivity of the medium. b) Write the complete time-domain expression for the magnetic field.
Q1. A plane wave propagating through a medium with e, = 8, µ, = 2 has E = 0.5 e-* sin(10°t - Bz) a, V/m. Determine (a) B (b) The loss tangent (c) Wave impedance (d) Wave vełocity (e) H field
The skin depth at 10 MHz for a conductor is 1cm. Find the phase velocity of an electromagnetic wave in the conductor at 1,000 MHz.
Given a wave with e = â„20e¹ª cos (10ºt + 4x). 4x a) Identify a and B. b) What medium is this (good conductor, quasi-conductor, good dielectric)? Justify your answer. c) Find phase velocity d) Find wave impedance n. e) Draw ây, âk, âƒ and ãä on the xz plane.
a) An electromagnetic wave propagating in free space with its electric field vector described by E = 30 sin(2n × 10°t – Bx) â̟V/m i. Determine the direction of wave propagation. Compute the period T and the wavelength, . Compute the phase constant Band the time it takes to travel a distance of 1/2. Determine the intrinsic impedance, n. Determine the magnetic field vector, H. 1i. ii. iv. V.

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