(5) A real object is located 7.00cm to the left of a thin diverging lens. The image is a distance of 3.33cm away from the lens. (a) Use the thin lens equation to predict the focal length of the lens. (b) Identify the image as real/virtual, upright/inverted, and enlarged/reduced. (c) A thin converging lens (f = 8.26cm) is placed 9.19cm to the right of the diverging lens. Use the thin lens equation to predict the distance between the location of the final image of the two lens system and the original real object. (d) If we removed the converging lens from part (c) and replaced the diverging lens from this problem with a mirror with the exact same focal length as the diverging lens, how (if at all) would your answer to part (b) change?

College Physics
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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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(5) A real object is located 7.00cm to the left of a thin diverging lens. The image is a
distance of 3.33cm away from the lens.
(a) Use the thin lens equation to predict the focal length of the lens.
(b) Identify the image as real/virtual, upright/inverted, and enlarged/reduced.
(c) A thin converging lens (f
lens. Use the thin lens equation to predict the distance between the location of the final
image of the two lens system and the original real object.
(d) If we removed the converging lens from part (c) and replaced the diverging lens from
this problem with a mirror with the exact same focal length as the diverging lens, how (if at
all) would your answer to part (b) change?
8.26cm) is placed 9.19cm to the right of the diverging
Transcribed Image Text:(5) A real object is located 7.00cm to the left of a thin diverging lens. The image is a distance of 3.33cm away from the lens. (a) Use the thin lens equation to predict the focal length of the lens. (b) Identify the image as real/virtual, upright/inverted, and enlarged/reduced. (c) A thin converging lens (f lens. Use the thin lens equation to predict the distance between the location of the final image of the two lens system and the original real object. (d) If we removed the converging lens from part (c) and replaced the diverging lens from this problem with a mirror with the exact same focal length as the diverging lens, how (if at all) would your answer to part (b) change? 8.26cm) is placed 9.19cm to the right of the diverging
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