A convex-convex (converging) thin lens of focal length f=220mm is placed in a vertical holder. An arrow-shaped light is placed 26cm to the left of the lens. The light is 6.0cm tall. (a) Use ray tracing to locate the approximate location and orientation of the image. Note: Your P-ray is traced the same way as the sample problem, but the F-ray will go through the left focus, then go parallel to the axis on the right. The image will be on the right side of the lens, farther away from the lens than the focus. You will not have to trace back to your image using dashed lines. This is made of real light rays, we say it is a real image. (b) Use the lens equation to find the location, di, of the image. (c) Use the magnification equation to find the magnification, m, and image height, hi.

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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A convex-convex (converging) thin lens of focal length f=220mm is placed in a vertical holder. An arrow-shaped light is placed 26cm to the left of the lens. The light is 6.0cm tall. (a) Use ray tracing to locate the approximate location and orientation of the image. Note: Your P-ray is traced the same way as the sample problem, but the F-ray will go through the left focus, then go parallel to the axis on the right. The image will be on the right side of the lens, farther away from the lens than the focus. You will not have to trace back to your image using dashed lines. This is made of real light rays, we say it is a real image. (b) Use the lens equation to find the location, di, of the image. (c) Use the magnification equation to find the magnification, m, and image height, hi.
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