A circularly polarized electromagnetic wave propagating in air has an electric field given by Ē = E[cos(kz – wt)i + sin(kz – wt)j]. This wave is incident with an intensity of 130 W/m? at the polarizing angle 8, onto a flat interface perpendicular to the zz-plane with a material Submit Previous Answers RequestAnswer that has index of refraction n= 1.58. X Incorrect; Try Again; 5 attempts remaining Part D Determine the intensity I of the component of the refracted wave polarized in the z-direction. Express your answer in watts per meter squared. Hνα ΑΣφ IL = W/m? Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining igure < 1 of 1> Part E The reflected wave is linearly polarized and the refracted wave is elliptically polarized, such that its electric field is characterized as shown in (Figure elliptical eccentricity e = V1- (E E2 ? e = E Submit Request Answen

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A circularly polarized electromagnetic wave propagating in air has an electric field given by E = E[cos(kz – wt)i + sin(kz – wt)j]. This wave is incident with an intensity of 130 W/m? at the polarizing angle 0, onto a flat interface perpendicular to the zz-plane with a material that has index of refractionn= 1.58. Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Part D Determine the intensity I of the component of the refracted wave polarized in the z-direction. Express your answer in watts per meter squared. να ΑΣφ ? I = W/m? Submit Previous Answers Request Answer X Incorrect; Try Again; 5 attempts remaining Figure < 1 of 1 > Part E The reflected wave is linearly polarized and the refracted wave is elliptically polarized, such that its electric field is characterized as shown in (Figure 1). Determine the elliptical eccentricity e = V1- (E1/E2)². E2 Πν ΑΣφ e = wt Submit Request Answer