 23.1: 1. (I) Suppose that you want to take a photograph of yourself as yo...
 23.2: 2. (I) When you look at yourself in a 60cmtall plane mirror, you ...
 23.3: 3. (II) Two mirrors meet at a 135" angle. Fig. 2347. If light rays...
 23.4: 4. (II) A person whose eyes are 1.68m above the floor stands 2.20 m...
 23.5: 5. (II) Suppose you are 90cm from a plane mirror. What area of the ...
 23.6: 6. (Ill) Show that if two plane mirrors meet at an angle </>. a sin...
 23.7: 7. (I) A solar cooker, really a concave mirror pointed at the Sun. ...
 23.8: 8. (I) How far from a concave mirror (radius 23.0 cm) must an objec...
 23.9: 9. (II) If you look at yourself in a shiny Christmas tree ball with...
 23.10: 10. (II) A mirror at an amusement park shows an upright image of an...
 23.11: 11. (II) A dentist wants a small mirror that, wrhen 2.20cm from a t...
 23.12: 12. (II) Some rearviewr mirrors produce images of cars behind you t...
 23.13: 13. (II) A luminous object 3.0 mm high is placed 20.0cm from a conv...
 23.14: 14. (II) You are standing 3.0 m from a convex security mirror in a ...
 23.15: 15. (II) (t?) Where should an object be placed in front of a concav...
 23.16: 16. (II) The image of a distant tree is virtual and very small wrhe...
 23.17: 17. (II) Use two different techniques, (a) a ray diagram, and (b) t...
 23.18: 18. (II) Showr, using a ray diagram, that the magnification m of a ...
 23.19: 19. (II) Use ray diagrams to show that the mirror equation. Eq. 23...
 23.20: 20. (II) The magnification of a convex mirror is +0.65 X for object...
 23.21: 21. (Ill) A 4.5cmtall object is placed 28 cm in front of a spheri...
 23.22: 22. (Ill) A shaving/makeup mirror is designed to magnify your face ...
 23.23: 23. (I) What is the speed of light in (d) crown glass. (b) Lucite, ...
 23.24: 24. (I) The speed of light in ice is 2.29 X 10* m/s. What is the in...
 23.25: 25. (II) Hie speed of light in a certain substance is 89% of its va...
 23.26: 26. (I) A flashlight beam strikes the surface of a pane of glass (n...
 23.27: 27. (I) A diver shines a flashlight upward from beneath the water a...
 23.28: 28. (I) A light beam coming from an underwater spotlight exits the ...
 23.29: 29. (I) Rays of the Sun are seen to make a 31.0 angle to the vertic...
 23.30: 30. (II) An aquarium filled with wrater has flat glass sides whose ...
 23.31: 31. (II) In searching the bottom of a pool at night, a watchman shi...
 23.32: 32. (II) Light is incident on an equilateral glass prism at a 45.0 ...
 23.33: 33. (II) A beam of light in air strikes a slab of glass ( = 1.52) a...
 23.34: 34. (Ill) Prove in general that for a light beam incident on a unif...
 23.35: 35. (Ill) A light ray is incident on a flat piece of glass with ind...
 23.36: 36. (I) What is the critical angle for the interface between water ...
 23.37: 37. (I) The critical angle for a certain liquidair surface is 47.7...
 23.38: 38. (II) A beam of light is emitted in a pool of water from a depth...
 23.39: 39. (II) A beam of light is emitted 8.0 cm beneath the surface of a...
 23.40: 40. (Ill) Suppose a ray strikes the left face of the prism in Fig. ...
 23.41: 41. (Ill) A beam of light enters the end of an optic fiber as shown...
 23.42: 42. (Ill) (a) What is the minimum index of refraction for a glass o...
 23.43: 43. (I) A sharp image is located 78.0 mm behind a 65.0mmfocallen...
 23.44: 44. (I) Sunlight is observed to focus at a point 18.5 cm behind a l...
 23.45: 45. (I) A certain lens focuses light from an object 2.75 m away as ...
 23.46: 46. (I) (a) What is the power of a 20.5cmfocallength lens? (b) W...
 23.47: 47. (II) A stamp collector uses a converging lens with focal length...
 23.48: 48. (II) A 5.5D lens is held 14.0cm from an object 4.0mm high. Wha...
 23.49: 49. (II) An 80mmfocallength lens is used to focus an image on th...
 23.50: 50. (II) It is desired to magnify reading material by a factor of 2...
 23.51: 51. (II) An object is located 1.5 m from an 8.0D lens. By how much...
 23.52: 52. (II) How far from a converging lens with a focal length of 25 c...
 23.53: 53. (II) (a) How far from a 50.0mmfocallength lens must an objec...
 23.54: 54. (II) Repeat for a 50.0mmfocallength lens. [Hint: consider o...
 23.55: 55. (II) (a) A 2.00cmhigh insect is 1.20 m from a 135mmfocalle...
 23.56: 56. (Ill) How far apart are an object and an image formed by a 75c...
 23.57: 57. (Ill) A bright object and a viewing screen arc separated by a d...
 23.58: *58. (II) Two 28.0cmfocallength converging lenses are placed 16....
 23.59: *59. (II) A diverging lens with /= 31.5 cm is placed 14.0 cm behin...
 23.60: *60. (II) A 31.0cmfocallength converging lens is 21.0cm behind a...
 23.61: 61. (II) The two converging lenses of Example 2312 arc now placed ...
 23.62: *62. (II) Two converging lenses are placed 30.0 cm apart. 'ITie foc...
 23.63: *63. (II) A diverging lens with a focal length of 14cm is placed 1...
 23.64: *64. (II) Two lenses, one converging with focal length 20.0 cm and ...
 23.65: *65. (Ill) A diverging lens is placed next to a converging lens of ...
 23.66: * 66. (I) A double concave lens has surface radii of 34.2 cm and 23...
 23.67: *67. (I) Both surfaces of a double convex lens have radii of 31.0 c...
 23.68: * 68. (II) A planoconcave lens (w = 1.50) has a focal length of 23...
 23.69: * 69. (II) A Lucite planoconcave lens (see Fig. 2329b) has one fla...
 23.70: 70. (II) A symmetric double convex lens with a focal length of 25.0...
 23.71: * 71. (II) A prescription for a corrective lens calls for +1.50 D. ...
 23.72: 72. Two plane mirrors face each other 2.0 m apart as in Fig. 2353....
 23.73: 73. We wish to determine the depth of a swimming pool filled with w...
 23.74: 74. The critical angle of a certain piece of plastic in air is $c =...
 23.75: 75. (a) A plane mirror can be considered a limiting case of a spher...
 23.76: 76. Stand up two plane mirrors so they form a 90 angle as in Fig. 2...
 23.77: 77. Show analytically that a diverging lens can never form a real i...
 23.78: 78. Each student in a physics lab is assigned to find the location ...
 23.79: 79. If the apex angle of a prism is (f) = 72 (see Fig. 2356), what...
 23.80: 80. The end faces of a cylindrical glass rod (/i = 1.54) are perpen...
 23.81: * 81. A lighted candle is placed 33 cm in front of a converging len...
 23.82: 82. A bright object is placed on one side of a converging lens of f...
 23.83: 83. In a slide or movie projector, the film acts as the object whos...
 23.84: 84. A 35mm slide (picture size is actually 24 by 36 mm) is to be p...
 23.85: 85. Show analytically that the image formed by a converging lens is...
 23.86: 86. A movie star catches a reporter shooting pictures of her at hom...
 23.87: 87. How large is the image of the Sun on film used in a camera with...
 23.88: 88. (a) An object 34.5 cm in front of a certain lens is imaged 8.20...
 23.89: 89. When an object is placed 60.0 cm from a certain converging lens...
 23.90: 90. A small object is 25.0 cm from a diverging lens as shown in Fig...
 23.91: 91. An object is placed 15 cm from a certain mirror. The image is h...
 23.92: 92. (a) Show that the lens equation can be written in the Newtonian...
 23.93: * 93. A converging lens with focal length of 10.0 cm is placed in c...
 23.94: * 94. (a) Show that if tw'o thin lenses of focal lengths J\ and f2 ...
Solutions for Chapter 23: Physics: Principles with Applications 6th Edition
Full solutions for Physics: Principles with Applications  6th Edition
ISBN: 9780321569837
Solutions for Chapter 23
Get Full SolutionsThis textbook survival guide was created for the textbook: Physics: Principles with Applications, edition: 6. This expansive textbook survival guide covers the following chapters and their solutions. Since 94 problems in chapter 23 have been answered, more than 193739 students have viewed full stepbystep solutions from this chapter. Physics: Principles with Applications was written by and is associated to the ISBN: 9780321569837. Chapter 23 includes 94 full stepbystep solutions.

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