The figure shows a small lightbulb suspended at distance d1 = 300 cm above the surface of the water in a swimming pool where the water depth is d2 = 270 cm. The bottom of the pool is a large mirror. How far below the mirror surface is the image of the bulb? (Hint: Construct a diagram of two rays like that of figure (b) below, but take into account the bending of light rays by refraction at the water surface. Assume that the indices of refraction of the air and the water are 1.00 and 1.33 respectively, and the rays are close to a vertical axis through the bulb, and use the small-angle approximation in which sin 0= tan 0= 0) VA Mirror Mirror (a) (b) Number i Units

Physics for Scientists and Engineers
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Author:Raymond A. Serway, John W. Jewett
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Chapter35: Image Fonnation
Section: Chapter Questions
Problem 58CP: A floating strawberry illusion is achieved with two parabolic mirrors, each having a focal length...
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The figure shows a small lightbulb suspended at distance d1 = 300 cm above the surface of the water in a swimming pool where the
water depth is d2 = 270 cm. The bottom of the pool is a large mirror. How far below the mirror surface is the image of the bulb? (Hint:
Construct a diagram of two rays like that of figure (b) below, but take into account the bending of light rays by refraction at the water
surface. Assume that the indices of refraction of the air and the water are 1.00 and 1.33 respectively, and the rays are close to a
vertical axis through the bulb, and use the small-angle approximation in which sin 0 = tan 0 = 0.)
Mirror
Mirror
(a)
(b)
Number
i
Units
Transcribed Image Text:The figure shows a small lightbulb suspended at distance d1 = 300 cm above the surface of the water in a swimming pool where the water depth is d2 = 270 cm. The bottom of the pool is a large mirror. How far below the mirror surface is the image of the bulb? (Hint: Construct a diagram of two rays like that of figure (b) below, but take into account the bending of light rays by refraction at the water surface. Assume that the indices of refraction of the air and the water are 1.00 and 1.33 respectively, and the rays are close to a vertical axis through the bulb, and use the small-angle approximation in which sin 0 = tan 0 = 0.) Mirror Mirror (a) (b) Number i Units
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