In an isotropic medium with a refractive index of n=2, electric field of an electromagnetic wave propagating along +y direction is on the xz plane as shown below. If the field amplitude is |E.=5 V/m and frequency of the wave is v=2x10¹4 Hz derive a vector expression for the electric field of this electromagnetic wave (the magnitude of the electric field at the origin at t=0 is E/2. You can take the speed of light in vacuum as c=3x108 m/s). s explain. 60⁰ JZ y Eo Z
In an isotropic medium with a refractive index of n=2, electric field of an electromagnetic wave propagating along +y direction is on the xz plane as shown below. If the field amplitude is |E.=5 V/m and frequency of the wave is v=2x10¹4 Hz derive a vector expression for the electric field of this electromagnetic wave (the magnitude of the electric field at the origin at t=0 is E/2. You can take the speed of light in vacuum as c=3x108 m/s). s explain. 60⁰ JZ y Eo Z
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Transcribed Image Text:Question 2: In an isotropic medium with a refractive index of n=2, electric field of an
electromagnetic wave propagating along +y direction is on the xz plane as shown
below. If the field amplitude is E.=5 V/m and frequency of the wave is v=2x10¹4 Hz
derive a vector expression for the electric field of this electromagnetic wave (the
magnitude of the electric field at the origin at t=0 is E/2. You can take the speed of
light in vacuum as c=3x108 m/s)
pls
explain.
60°
JZ
E₂
Z
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