As shown in the figure, white light enters a 45-90-45 crown glass prism at the vertical face. Part of this light refracts at the slanted face into the surrounding material and the rest experiences total internal reflection and exits the prism at the horizontal base. The colors of light that emerge from the slanted face may be chosen by varying the index of refraction of the material surrounding the prism. Determine the required index of refraction of the surrounding material for each of the following cases. (a) Only red, orange and yellow light refract from the slanted face of the prism into the surrounding material. (Express your answer to 4 significant figures.) -1.074 x Can you write Snell's law for light of any color passing through the crown glass prism and refracting into the surrounding material at the slanted surface? See if you can find a condition that must be met in order to refract a particular color of light into the surrounding material at the slanted surface. (b) All colors except violet, blue, and green light refract from the slanted face of the prism into the surrounding material. (Express your answer to 4 significant figures.) 1.074 x How does the condition you discovered in part (a) change in order to accomplish part (b)? The table below shows the different colors of light, their wavelength in a vacuum, and the index of refraction in crown glass. White light Color Red Orange Yellow Green Blue Violet 45° #₂ 10₂ All other colors 580 550 470 410 Vacuum Wavelength Index of Refraction in (nm) Crown Glass (nm) 660 1.512 610 1.514 -Orange Red 1.518 1.519 1.524 1.530
As shown in the figure, white light enters a 45-90-45 crown glass prism at the vertical face. Part of this light refracts at the slanted face into the surrounding material and the rest experiences total internal reflection and exits the prism at the horizontal base. The colors of light that emerge from the slanted face may be chosen by varying the index of refraction of the material surrounding the prism. Determine the required index of refraction of the surrounding material for each of the following cases. (a) Only red, orange and yellow light refract from the slanted face of the prism into the surrounding material. (Express your answer to 4 significant figures.) -1.074 x Can you write Snell's law for light of any color passing through the crown glass prism and refracting into the surrounding material at the slanted surface? See if you can find a condition that must be met in order to refract a particular color of light into the surrounding material at the slanted surface. (b) All colors except violet, blue, and green light refract from the slanted face of the prism into the surrounding material. (Express your answer to 4 significant figures.) 1.074 x How does the condition you discovered in part (a) change in order to accomplish part (b)? The table below shows the different colors of light, their wavelength in a vacuum, and the index of refraction in crown glass. White light Color Red Orange Yellow Green Blue Violet 45° #₂ 10₂ All other colors 580 550 470 410 Vacuum Wavelength Index of Refraction in (nm) Crown Glass (nm) 660 1.512 610 1.514 -Orange Red 1.518 1.519 1.524 1.530
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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