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cation, real or virtual) of the image? Two thin lenses have optical powers of 4.0 O, respectively. They are 0.90 m from each of Find the focal length of the lenses. Find the location of the image of an objec 0,50 m in front of the first lens.

cation, real or virtual) of the image? Two thin lenses have optical powers of 4.0 O, respectively. They are 0.90 m from each of Find the focal length of the lenses. Find the location of the image of an objec 0,50 m in front of the first lens.

College Physics
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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Geometric optics q 61
Clength of glycerine focused ir 59. ** The 45°-90°-45° triangular glass prism in Figure 28-34 (see problem 41) is surrounded by air. A ray of light is incident on the left face at an angle of 60.0°. The point of incidence is high enough that the refracted ray hits the opposite sloping side. (a) size of th compare Through which face of the prism does the light exit? (b) What is the angle that the exiting beam of light 10 cm makes with the horizontal? The length of the hypotenuse of the cross-sectional area of the prism is 10. cm. How high from the bottom of the prism will the light ray exit it? (c) 20 cm 60. * A 5.0 cm tall vertical rod is 60. cm from a convex mirror, which has a radius of curvature of 40. cm. (a) Where is the image of the rod located? (b) What are the properties (i.e., orientation, magnifi- cation, real or virtual) of the image? 61. ** Two thin lenses have optical powers of 4.0 D and Figure 28 5.0 D, respectively. They are 0.90 m from each other. (а) Find the focal length of the lenses. (b) Find the location of the image of an object that is 0.50 m in front of the first lens. (c) 67. ** ra Can you use the equation for the combined power of the lenses to solve this problem? Justify your (a (b answer. 62. * During an eye exam, you notice that to be able to read a book, you have to hold it 16 cm in front of your eyes. For a healthy eye, this distance should be approximately 25 cm. 68. - (a) What vision problem does this indicate? a (b) What further information do you need to deter- mine the optical power of eyeglasses to correct your vision? 63. ** Derive an equation for the angle of deflection of a light beam propagating through an isosceles trian- gular prism as a function of the angle of the apex of the prism, o; its index of refraction, n; and the angle of inci-
Transcribed Image Text:Clength of glycerine focused ir 59. ** The 45°-90°-45° triangular glass prism in Figure 28-34 (see problem 41) is surrounded by air. A ray of light is incident on the left face at an angle of 60.0°. The point of incidence is high enough that the refracted ray hits the opposite sloping side. (a) size of th compare Through which face of the prism does the light exit? (b) What is the angle that the exiting beam of light 10 cm makes with the horizontal? The length of the hypotenuse of the cross-sectional area of the prism is 10. cm. How high from the bottom of the prism will the light ray exit it? (c) 20 cm 60. * A 5.0 cm tall vertical rod is 60. cm from a convex mirror, which has a radius of curvature of 40. cm. (a) Where is the image of the rod located? (b) What are the properties (i.e., orientation, magnifi- cation, real or virtual) of the image? 61. ** Two thin lenses have optical powers of 4.0 D and Figure 28 5.0 D, respectively. They are 0.90 m from each other. (а) Find the focal length of the lenses. (b) Find the location of the image of an object that is 0.50 m in front of the first lens. (c) 67. ** ra Can you use the equation for the combined power of the lenses to solve this problem? Justify your (a (b answer. 62. * During an eye exam, you notice that to be able to read a book, you have to hold it 16 cm in front of your eyes. For a healthy eye, this distance should be approximately 25 cm. 68. - (a) What vision problem does this indicate? a (b) What further information do you need to deter- mine the optical power of eyeglasses to correct your vision? 63. ** Derive an equation for the angle of deflection of a light beam propagating through an isosceles trian- gular prism as a function of the angle of the apex of the prism, o; its index of refraction, n; and the angle of inci-
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