Physics for Scientists and Engineers
6th Edition
ISBN: 9781429281843
Author: Tipler
Publisher: MAC HIGHER
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Chapter 31, Problem 22P
To determine
The maximum value of angle.
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An object is placed 10.9 cm in front of the cornea. (The cornea is thin ans has approximately parallel sides so that the reflection that occurs as light travels from air to cornea to aqueous humor is essentially the same as though the aqueous humor were directly in contact with the air. The aqueous humor has index of refraction n = 1.34 and the radius of curvature of cornea is 7.8 mm.)
(a) What is the image distance for the image formed by the cornea alone? (b) The image formed by the cornea serves as an object for the lens. Treat the lens as a thin lens 8 mm behind the cornea. Find the optical power of the lens necessary to form an image on the retina, 17 mm from the center of the lens.
An object is placed 11.0 cm in front of the cornea. (The cornea is thin ans has approximately parallel sides so that the reflection that occurs as light travels from air to cornea to aqueous humor is
essentially the same as though the aqueous humor were directly in contact with the air. The aqueous humor has index of refraction n = 1.34 and the radius of curvature of cornea is 7.8 mm.)
(a) What is the image distance for the image formed by the cornea alone?
(b) The image formed by the cornea serves as an object for the lens. Treat the lens as a thin lens 6 mm behind the cornea. Find the optical power of the lens necessary to form an image on
the retina, 26 mm from the center of the lens.
Additional Motoriola
Calculate the time-of-flight you expect for light to propagate a distance of 20 m in (a) vacuum and (b) a medium with an index of refraction n = 1.5. Express your answer in nanoseconds (ns).
Chapter 31 Solutions
Physics for Scientists and Engineers
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