Physics for Scientists and Engineers
6th Edition
ISBN: 9781429281843
Author: Tipler
Publisher: MAC HIGHER
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Chapter 31, Problem 2P
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Chapter 31 Solutions
Physics for Scientists and Engineers
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- A ray of light crosses the boundary between some substance with n = 1.46 and air, going from the substance into air. If the angle of incidence is 26◦ what is the angle of refraction?arrow_forwardA ray of light is incident on the surface of a block of clear ice at an angle of 40.00 with the normal. Part of the light is reflected, and part is refracted. The Index of Refraction of air and ice is 1.00, and 1.33, respectively. Find: The angle of the reflected beam ( that it makes with the normal) The angle of the refracted beam ( that it makes with the normal) The angle between the reflected and refracted light.arrow_forwardA ray of light is incident on a glass of refractive index 1.5. The angle between the reflected and refracted rays is 90°. What is the ratio of wavelength of reflected to refracted rays? (a) (c) 2.1 ELT 1.6 (b) 1.5 (d) 1.7arrow_forward
- A ray of light traveling in water is incident on an interface with a flat piece of glass. The wavelength of the light in the water is 726 nm and its wavelength in the glass is 544 nm. If the ray in water makes an angle of 42.00 with respect to the normal to the interface, what angle does the refracted ray in the glass make with respect to the normal? (index of refraction of water = 1.333)arrow_forwardA ray of light is incident on the surface of a block of flint glass at an angle of 32.0° with respect to the normal (a line perpendicular to the surface at the spot where the ray hits the block). A fraction of the light is reflected and the rest refracted. What is the angle (in degrees) between the reflected and refracted rays?arrow_forward(a) A light ray is incident on the left side of the prism shown in the figure below. The prism is a right triangle, with two of its angles measuring 45°. The transmitted ray that exts the hypotenuse of the prism makes an angle of 0- 17.4" with the direction of the incident beam. What is the index of refraction of the prism? (Round your answer to at least two decimal places) 45,0 (b) What If? In part (a), we assumed the ray was monochromatic. Consider instead the case where the ray was composed of white light. Because the index of refraction differs for differenti wavelengths, the white light would be dispersed into constituent colors. Assume the index of refraction for blue wavelengths is 1.01m and for red wavelengths it is 0.99n, where it is the index of refraction found in part (a). What is the angular spread (in degrees) between red and blue light exiting the prism? Need Help?arrow_forward
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