Concept explainers
(a)
The image formed when a 10.0-cm-tall object is positioned 20.0 cm from the mirror. provide the image distance, the image height, the type of image (real or virtual), and the orientation of the image (upright or inverted).
Answer to Problem 57QAP
Mirror image appear
Height the image=
Virtual, upright image
Explanation of Solution
Given info:
Distance to object from mirror=
Radius of the curvature=
Height of the object=
Formula used:
Calculations:
Conclusion:
Mirror image appear
Height the image=
Virtual, upright image
(b)
The image formed when a 10.0-cm-tall object is positioned 50.0 cm from the mirror, provide the image distance, the image height, the type of image (real or virtual), and the orientation of the image (upright or inverted).
Answer to Problem 57QAP
Mirror image appear
Height the image=
Virtual, upright image
Explanation of Solution
Given info:
Distance to object from mirror=
Radius of the curvature=
Height of the object=
Formula used:
Calculations:
Conclusion:
Mirror image appear
Height the image=
Virtual, upright image
(c)
The image formed when a 10.0-cm-tall object is positioned 100.0 cm from the mirror. For each case, provide the image distance, the image height, the type of image (real or virtual), and the orientation of the image (upright or inverted).
Answer to Problem 57QAP
Mirror image appear
Height the image=
Virtual, upright image
Explanation of Solution
Given info:
Distance to object from mirror=
Radius of the curvature=
Height of the object=
Formula used:
Calculations:
Conclusion:
Mirror image appear
Height the image=
Virtual, upright image
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Chapter 24 Solutions
COLLEGE PHYSICS
- (i) When an image of an object is formed by a plane mirror, which of the following statements is always true? More than one statement may be correct. (a) The image is virtual. (b) The image is real. (c) The image is upright. (d) The image is inverted. (e) None of those statements is always true. (ii) When the image of an object is formed by a concave mirror, which of the preceding statements are always true? (iii) When the image of an object is formed by a convex mirror, which of the preceding statements are always true?arrow_forward1) Suppose a concave spherical mirror has a focal length of 4.0 cm. Find the image location and magnification both graphically (with ray diagrams) and analytically (using equations) for the following cases. In each case state whether the image is real/virtual and upright/inverted. (a) First case: An object of height 4.0 cm located a distance 12.0 cm from the mirror. (b) Second case: An object of height 2.0 cm located a distance 2.0 cm from the mirror. (c) Third case: Repeat 1(a) for a convex mirror using the same focal length.arrow_forwardDraw the ray diagram of this problem An object is placed 50 cm in front of a concave mirror of 60 cm radius. Determine the (a) focal length, (b) image distance, (c) linear magnification, (d) object size if the image produced was 3 cm. (e) define the image produced (f) ray diagram.arrow_forward
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- •• A certain telescope uses a concave spherical mirror that has a radius equal to 8.0 m. Find the location and diameter of the image of the moon formed by this mirror. The moon has a diameter of 3.5 X 10°m and is 3.8 x 10* m from Earth. 31arrow_forwardA photographer places a 1.75 cm high pearl 3.50 cm in front of a concave mirror. This results in a 5.50 cm high virtual image of the pearl appearing as if behind the mirror. What is the mirror's focal length (in cm)? |-5.13 X cmarrow_forwardAn object is placed (3.80x10^1) cm in front of a spherical mirror. An "upright"| image is formed that is twice as tall as the object. You must do BOTH of the following. FIRST determine the radius of curvature of the mirror in cm to 3 significant digits (Be certain to include the appropriate "sign" for the focal length SECOND in the Box for Units, state whether the image is real or virtual !! Note: Your answer is assumed to be reduced to the highest power possible. Your Answer: х10 Answer units 12:25 PM P Type here to search 11/20/2020 Home F8 End F9 pgUP10 PgDn F11 Ins F12 Del PrtScn F3 F4 F5 F6 F7 F2 # & Backspacearrow_forward
- Principles of Physics: A Calculus-Based TextPhysicsISBN:9781133104261Author:Raymond A. Serway, John W. JewettPublisher:Cengage Learning