A uniform plane wave propagating in air (u= H.,6 = 8,) hits a lossless dielectric material (H= H,8 = E,6,) at the planar boundary at z = 0 as shown in the figure. The incident electric field phasor is given as 10 E' = (â, -â.)ek %3D The transmitted wave is known to propagate at an angle 0, = 30° as shown. Also, the oscillation frequency of the uniform plane wave is given to be f- 300 MH:. a) Find the relative permittivity &, of the dielectric medium. b) Obtain the phasor expressions for the reffected electric field E' and the transmitted field E' (your results should contain no unknowns).

A uniform plane wave propagating in air (u= H.,6 = 8,) hits a lossless dielectric material (H= H,8 = E,6,) at the planar boundary at z = 0 as shown in the figure. The incident electric field phasor is given as 10 E' = (â, -â.)ek %3D The transmitted wave is known to propagate at an angle 0, = 30° as shown. Also, the oscillation frequency of the uniform plane wave is given to be f- 300 MH:. a) Find the relative permittivity &, of the dielectric medium. b) Obtain the phasor expressions for the reffected electric field E' and the transmitted field E' (your results should contain no unknowns).

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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