As shown in the right figure, a collimated light beam with intensity of I, = 100(W/m²) passes through a prism made by a glass with the refractive index of n = 1.6 perpendicularly. Please compute a) The intensity of the final transmitted light (I). 5) The percentage of the light intensity reduction for the transmitted light after passing through this prism.
As shown in the right figure, a collimated light beam with intensity of I, = 100(W/m²) passes through a prism made by a glass with the refractive index of n = 1.6 perpendicularly. Please compute a) The intensity of the final transmitted light (I). 5) The percentage of the light intensity reduction for the transmitted light after passing through this prism.
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Chapter1: Units, Trigonometry. And Vectors
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Transcribed Image Text:3. As shown in the right figure, a collimated light
beam with intensity of I, = 100(W/m²) passes through a
prism made by a glass with the refractive index of n =
1.6 perpendicularly. Please compute
n. = 1.0
a) The intensity of the final transmitted light (I,).
n = 1.6
b) The percentage of the light intensity reduction for the
transmitted light after passing through this prism.
IT
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