Schaum's Outline of College Physics, Twelfth Edition (Schaum's Outlines)
12th Edition
ISBN: 9781259587399
Author: Eugene Hecht
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 38, Problem 18SP
You are designing a copy machine using a positive lens with a 15.0-cm focal length. Where should the input page be located with respect to the lens in order to produce exact copies? Explain your answer.
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Check out a sample textbook solutionChapter 38 Solutions
Schaum's Outline of College Physics, Twelfth Edition (Schaum's Outlines)
Ch. 38 - 38.15 [I] Draw diagrams to indicate qualitatively...Ch. 38 - 38.16 [I] A thin lens has a focal length of +20.0...Ch. 38 - 38.17 [I] An object is very far from the front of...Ch. 38 - 38.18 [I] You are designing a copy machine using a...Ch. 38 - 38.19 [I] Show that for a thin positive lens
Ch. 38 - 38.20 [I] Where must an object be located with...Ch. 38 - 38.21 [I] A bug on the central axis is 300 cm from...Ch. 38 - 38.22 [I] Considering the bug in the previous...Ch. 38 - 38.23 [I] Where should an object be placed in...Ch. 38 - 38.24 [I] Where should an object be placed in...
Ch. 38 - 38.25 [I] A 1.0-cm-tall object is placed in front...Ch. 38 - 38.26 [I] A 1.0-cm-tall object is placed in front...Ch. 38 - 38.27 [I] Where should a 1.0-cm-tall object be...Ch. 38 - 38.28 [I] What is the separation between the...Ch. 38 - 38.29 [I] An object on the central axis is 200 cm...Ch. 38 - 38.30 [I] We have a thin negative lens with a...Ch. 38 - 38.31 [I] Determine the nature, position, and...Ch. 38 - 38.32 [II] Determine the two locations of an...Ch. 38 - 38.33 [II] What are the nature and focal length of...Ch. 38 - 38.34 [II] Describe fully the image of an object...Ch. 38 - 38.35 [II] Compute the focal length of a lens that...Ch. 38 - 38.36 [II] A luminous object and a screen are 12.5...Ch. 38 - 38.37 [II] A plano-concave lens has a spherical...Ch. 38 - 38.38 [II] A convex-concave lens has faces of...Ch. 38 - 38.39 [II] A double convex glass lens has faces...Ch. 38 - 38.40 [II] Two thin lenses, of focal lengths +12...Ch. 38 - 38.41 [II] What must be the focal length of a...
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- The left face of a biconvex lens has a radius of curvature of magnitude 12.0 cm, and the right face has a radius of curvature of magnitude 18.0 cm. The index of refraction of the glass is 1.44. (a) Calculate the focal length of the lens for light incident from the left. (b) What If? After the lens is turned around to interchange the radii of curvature of the two faces, calculate the focal length of the lens for light incident from the left.arrow_forwardAn amoeba is 0.305 cm away from the 0.300 cm- focal length objective lens of a microscope. (a) Where is the image formed by the objective lens? (b) What is this image’s magnification? (C) An eyepiece with a 2.00-cm focal length is placed 20.0 cm from the objective. Where is the final image? (d) What angular magnification is produced by the eyepiece? (e) What is the overall magnification? (See Figure 2.39.)arrow_forwardIn Figure P35.30, a thin converging lens of focal length 14.0 cm forms an image of the square abed, which is he = hb = 10.0 cm high and lies between distances of pd = 20.0 cm and pa = 30.0 cm from the lens. Let a, b, c. and d represent the respective corners of the image. Let qa represent the image distance for points a and b, qd represent the image distance for points c and d, hb, represent the distance from point b to the axis, and hc represent the height of c. (a) Find qa, qd, hb, and hc. (b) Make a sketch of the image. (c) The area of the object is 100 cm2. By carrying out the following steps, you will evaluate the area of the image. Let q represent the image distance of any point between a and d, for which the object distance is p. Let h represent the distance from the axis to the point at the edge of the image between b and c at image distance q. Demonstrate that h=10.0q(114.01q) where h and q are in centimeters. (d) Explain why the geometric area of the image is given by qaqdhdq (e) Carry out the integration to find the area of the image. Figure P35.30arrow_forward
- Figure P38.43 shows a concave meniscus lens. If |r1| = 8.50 cm and |r2| = 6.50 cm, find the focal length and determine whether the lens is converging or diverging. The lens is made of glass with index of refraction n = 1.55. CHECK and THINK: How do your answers change if the object is placed on the right side of the lens? FIGURE P38.43arrow_forwardTwo converging lenses having focal length of f1 = 10.0 cm and f2 = 20.0 cm are placed d = 50.0 cm apart, as shown in Figure P23.44. The final image is to be located between the lenses, at the position x = 31.0 cm indicated. (a) How far to the left of the first lens should the object be positioned? (b) What is the overall magnification of the system? (c) Is the final image uptight or inserted? Figure P23.44arrow_forwardIn Figure P26.38, a thin converging lens of focal length 14.0 cm forms an image of the square abcd, which is hc = hb = 10.0 cm high and lies between distances of pd = 20.0 cm and pa = 30.0 cm from the lens. Let a, b, c, and d represent the respective corners of the image. Let qa represent the image distance for points a and b, qd represent the image distance for points c and d, hb represent the distance from point b to the axis, and hc represent the height of c. (a) Find qa, qd, hb, and hc. (b) Make a sketch of the image. (c) The area of the object is 100 cm2. By carrying out the following steps, you will evaluate the area of the image. Let q represent the image distance of any point between a and d, for which the object distance is p. Let h represent the distance from the axis to the point at the edge of the image between b and c at image distance q. Demonstrate that h=10.0q(114.01q) where h and q are in centimeters. (d) Explain why the geometric area of the image is given by qaqdhdq (e) Carry out the integration to find the area of the image. Figure P26.38arrow_forward
- Show that the magnification of a thin lens is given by M = di/do (Eq. 38.6). Hint: Follow the derivation of the lens makers equation (page 1233) and start with a thick lens.arrow_forwardA lamp of height S cm is placed 40 cm in front of a converging lens of focal length 20 cm. There is a plane mirror 15 cm behind the lens. Where would you find the image when you look in the mirror?arrow_forwardA converging lens has a focal length of 10.0 cm. Locate the object if a real image is located at a distance from the lens of (a) 20.0 cm and (b) 50.0 cm. What If? Redo the calculations if the images are virtual and located at a distance from the lens of (c) 20.0 cm and (d) 50.0 cm.arrow_forward
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Convex and Concave Lenses; Author: Manocha Academy;https://www.youtube.com/watch?v=CJ6aB5ULqa0;License: Standard YouTube License, CC-BY