For the case of the oblique incidence of a uniform plane wave with parallel polarization on a plane boundary at z=0 with &, = 6, & = 2.256,, 4 = u, = µ, (z<0 material 1 and z>0 material 2). Assume H, = 0.053(A/m), f=100(MHz), and e, = 30° . a) Find the reflection and transmission coefficients, b) Find the reflected and transmitted electric and magnetic field expressions in the time form.
For the case of the oblique incidence of a uniform plane wave with parallel polarization on a plane boundary at z=0 with &, = 6, & = 2.256,, 4 = u, = µ, (z<0 material 1 and z>0 material 2). Assume H, = 0.053(A/m), f=100(MHz), and e, = 30° . a) Find the reflection and transmission coefficients, b) Find the reflected and transmitted electric and magnetic field expressions in the time form.
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I saw that you answered this question before but i can not see the solution. Please i need the solution of ONLY part b .
![3) For the case of the oblique incidence of a uniform plane wave
with parallel polarization on a plane boundary at z=0 with &, = E,,
& = 2.256,, 4 = µ, = µ, (z<0 material 1 and z>0 material 2). Assume
H = 0.053(A/ m), f=100(MHz), and e, = 30°.
a) Find the reflection and transmission coefficients,
b) Find the reflected and transmitted electric and magnetic field
expressions in the time form.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4898b0c8-b169-40ce-a6ee-87445b22992f%2Fa12fad70-5ef7-4b06-87bf-ba796955a694%2Fnfe7m5q_processed.jpeg&w=3840&q=75)
Transcribed Image Text:3) For the case of the oblique incidence of a uniform plane wave
with parallel polarization on a plane boundary at z=0 with &, = E,,
& = 2.256,, 4 = µ, = µ, (z<0 material 1 and z>0 material 2). Assume
H = 0.053(A/ m), f=100(MHz), and e, = 30°.
a) Find the reflection and transmission coefficients,
b) Find the reflected and transmitted electric and magnetic field
expressions in the time form.
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