The diagram below shows a glass prism used to split white light from the sun into its component colours. The path of the red light is shown in the prism. a) Add the path of violet light to the prism. b) Continue both rays out of the prism, so that they hit the screen. c) What is the name of this effect? The angle of incidence is 52°. The refractive index of the glass for red light is 1.61 and the refractive index of the glass for violet light is 1.65. d) Calculate the angle of refraction for i. Red light ii. Violet light
The diagram below shows a glass prism used to split white light from the sun into its component colours. The path of the red light is shown in the prism. a) Add the path of violet light to the prism. b) Continue both rays out of the prism, so that they hit the screen. c) What is the name of this effect? The angle of incidence is 52°. The refractive index of the glass for red light is 1.61 and the refractive index of the glass for violet light is 1.65. d) Calculate the angle of refraction for i. Red light ii. Violet light
Glencoe Physics: Principles and Problems, Student Edition
1st Edition
ISBN:9780078807213
Author:Paul W. Zitzewitz
Publisher:Paul W. Zitzewitz
Chapter19: Interference And Diffraction
Section: Chapter Questions
Problem 53A
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The diagram below shows a glass prism used to split white light from the sun into its component colours. The path of the red light is shown in the prism.
a) Add the path of violet light to the prism.
b) Continue both rays out of the prism, so that they hit the screen.
c) What is the name of this effect?
The angle of incidence is 52°. The refractive index of the glass for red light is 1.61 and the refractive
index of the glass for violet light is 1.65.
d) Calculate the angle of refraction for
i. Red light
ii. Violet light
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