Tutorials in Introductory Physics
1st Edition
ISBN: 9780130970695
Author: Peter S. Shaffer, Lillian C. McDermott
Publisher: Addison Wesley
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Textbook Question
Chapter 10.2, Problem 4aT
On the diagram at right, draw one ray from the pin that is reflected by the mirror.,br/>
If you were to place your eye so that you were looking back along the reflected ray, what would you see?
From one ray alone do you have enough information to determine the location of the image? If not, what can you infer about the location of the image from only a single ray?
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Case 7: Consider the case of an object (draw yourself on the diagram, an arrow erect on the optical axis) located at d0 > 2F'. Draw the following rays in the figure: ray parallel to the optical axis, focal ray, central ray, draw the image of the arrow, indicate in the same figure from where to where di is (image-lens distance). Don't forget to put the direction on each ray, both the incident rays and the transmitted rays. Image characteristics for case 7: object located at d0 > 2F'. Choose the ones that apply:
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Determine the image distance d, for an object
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curvature R = 4,880 cm and index of refraction 1.650.
Express your answer as a positive quantity.
object
%3D
cm
= I'pl
What is the magnification m of the object? Be sure to insert
the proper sign if needed.
m =
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inverted and smaller
upright and smaller
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upright and larger
You are imaging a pencil through a thin, converging lens as shown in the image below. If p (the distance from the object to the center of the thin lens) is
6.86m and the focal length of the thin lens is 1.4m, how far away (in meters) from the center of the thin lens is the real image located (the real image will
be on the right-side of the lens in this particular example illustrated below)?
Ray 1
Page
Object
focal point
Converging
lens
Ray 2
Secondary Ray 3
Ray 1
Ray 3
Principal
focal point
Real
image
Chapter 10 Solutions
Tutorials in Introductory Physics
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