A man inside a spherical diving bell watches a fish through a window in the bell, as in the figure below. If the diving bell has radius R = 1.84 m and the fish is a distance p = 1.42 m from the window, calculate the image distance and the magnification. Neglect the thickness of the window. (Use 1.333 and 1.000 for the indices of refraction of water and air, respectively.) HINT Window R (a) the image distance (in m) -0.887 By the sign conventions for refracting surfaces, the negative image distance indicates the image is formed in front of the refracting surface (on the same side as the object). m (b) the magnification 0.883 X Need Help? Read It

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A man inside a spherical diving bell watches a fish through a window in the bell, as in the figure below. If the diving bell has
radius R = 1.84 m and the fish is a distance p = 1.42 m from the window, calculate the image distance and the
magnification. Neglect the thickness of the window. (Use 1.333 and 1.000 for the indices of refraction of water and air,
respectively.)
HINT
Window
R
(a) the image distance (in m)
-0.887
By the sign conventions for refracting surfaces, the negative image distance indicates the image is
formed in front of the refracting surface (on the same side as the object). m
(b) the magnification
0.883
X
Need Help?
Read It
Transcribed Image Text:A man inside a spherical diving bell watches a fish through a window in the bell, as in the figure below. If the diving bell has radius R = 1.84 m and the fish is a distance p = 1.42 m from the window, calculate the image distance and the magnification. Neglect the thickness of the window. (Use 1.333 and 1.000 for the indices of refraction of water and air, respectively.) HINT Window R (a) the image distance (in m) -0.887 By the sign conventions for refracting surfaces, the negative image distance indicates the image is formed in front of the refracting surface (on the same side as the object). m (b) the magnification 0.883 X Need Help? Read It
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