(c) 55 cm 8 cm 308 cm FIGURE 3 A thin hemispherical clear plastic bowl of radius 55 cm is placed in a tank filled with water (nwater= 1.33). The base of the bowl sinks to a depth of 8 cm and the water level rises to a height of 308 cm as shown in FIGURE 3. An object at the bottom of the tank is viewed vertically from above the bowl. (i) Calculate the image distance from the base of the bowl. (ii) Is the image virtual or real? Justify your answer.

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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(c)
55 cm
cm
308 cm
FIGURE 3
A thin hemispherical clear plastic bowl of radius 55 cm is placed in a tank
filled with water (nwater = 1.33). The base of the bowl sinks to a depth of 8 cm
and the water level rises to a height of 308 cm as shown in FIGURE 3. An
object at the bottom of the tank is viewed vertically from above the bowl.
(i)
Calculate the image distance from the base of the bowl.
(ii)
Is the image virtual or real? Justify your answer.
The radius of curvature of a bi-convex lens is 24 cm. The refractive index of
the lens is 1.54. Calculate the focal length of the lens.
(d)
Transcribed Image Text:(c) 55 cm cm 308 cm FIGURE 3 A thin hemispherical clear plastic bowl of radius 55 cm is placed in a tank filled with water (nwater = 1.33). The base of the bowl sinks to a depth of 8 cm and the water level rises to a height of 308 cm as shown in FIGURE 3. An object at the bottom of the tank is viewed vertically from above the bowl. (i) Calculate the image distance from the base of the bowl. (ii) Is the image virtual or real? Justify your answer. The radius of curvature of a bi-convex lens is 24 cm. The refractive index of the lens is 1.54. Calculate the focal length of the lens. (d)
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