A parallel-polarized beam of light with an electric field amplitude of 10 (V/m) is GAZ incident in air on polystyrene with μ = 1 and & = 2.6. If the incidence angle at the air-polystyrene planar boundary is 50°, determine the following: (a) The reflectivity and transmissivity. (b) The complex Poynting vector corresponding to the incident, reflected, and transmitted beams. reflected wave 0₁ E₁(x) H₁(x) Incident wave Medium 1 transmitted wave Medium 2

A parallel-polarized beam of light with an electric field amplitude of 10 (V/m) is GAZ incident in air on polystyrene with μ = 1 and & = 2.6. If the incidence angle at the air-polystyrene planar boundary is 50°, determine the following: (a) The reflectivity and transmissivity. (b) The complex Poynting vector corresponding to the incident, reflected, and transmitted beams. reflected wave 0₁ E₁(x) H₁(x) Incident wave Medium 1 transmitted wave Medium 2

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Question

A parallel-polarized beam of light with an
electric field amplitude of 10 (V/m) is
GAZ/
incident in air on polystyrene with μ = 1
and & = 2.6. If the incidence angle at
the air-polystyrene planar boundary is
50°, determine the following:
(a) The reflectivity and transmissivity.
(b) The complex Poynting vector
corresponding to the incident, reflected,
and transmitted beams.
1970
reflected wave
0,
0₁
Ē₁(x)
H(x) incident wave
Medium 1
transmitted wave
Medium 2
X

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