COLLEGE PHYSICS
2nd Edition
ISBN: 9781464196393
Author: Freedman
Publisher: MAC HIGHER
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Chapter 24, Problem 55QAP
To determine
How to remember the shapes of spherical concave and convex mirrors?
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2. In most applications of concave spherical mirrors (including this activity) it is assumed that all light rays travelling parallel to the mirror's optical axis are reflected through the mirror's focal point; however, this is an approximation that applies only to light rays traveling near the mirror's optical axis. Explain why a concave spherical mirror does not reflect all light rays travelling parallel to its optical axis through its focal point.
You have learnt that plane and convex mirrors produce virtual images of objects. Can they produce real images under some circumstances? Explain
A clerk at the local grocery store wears glasses that make her
eyes look smaller than they actually are. Is the clerk nearsighted or
farsighted? Explain.
Chapter 24 Solutions
COLLEGE PHYSICS
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, physics and related others by exploring similar questions and additional content below.Similar questions
- Can an image be larger than the object even though its magnification is negative? Explain.arrow_forwardWhat is the focal length of a makeup mirror that produces a magnification of 1.50 when a person’s face is 12.0 cm away? Explicitly show how you follow the steps in the ProblemSolving Strategy for Mirrors.arrow_forwardA magnifying glass produces an angular magnification of 4.5 when used by a young person with a near point of 18 cm. What is the maximum angular magnification obtained by an older person with a near point of 45 cm?arrow_forward
- confused on whether i use the given vectors or if i have to calculate the vectors using the image givenarrow_forwardIn many convenience stores, a mirror is placed in a top corner of the store to allow the clerk to have a full view of the store. Is this mirror spherical concave or convex? Explain your answer.arrow_forwardObtaining a large spherical mirror with a focal length of 0.654 m from the Physics Storeroom, Mr. H takes his last period class outside for a fascinating demo. A student volunteer holds the mirror at an angle such that the face of the mirror is directed towards the Sun - roughly 1.46x1011 m away. Mr. H then uses a piece of paper with George Washington's picture on it to focus the image of the sun on the sheet of paper. Before the paper engulfs in flames, a bright image of the sun can be seen on the paper. Use the mirror equation to calculate the distance from the mirror to the image of the sun.arrow_forward
- During LASIK eye surgery (laser - assisted in situ keratomileusis), the shape of the cornea is modified by vaporizing some of its material. If the surgery is performed to correct for nearsightedness, how does the cornea need to be reshaped?arrow_forwardImagine that you travel by car on the General Cañas highway, towards San José-Alajuela and the car turns right towards the entrance of Barreal. When you get to the top, in front of you there is a convex mirror on a pole so that you can see the cars coming towards you from the left. The mirror has a radius of curvature of 427.2 mm and the car is positioned 7.5 m away from the mirror, how to calculate the mirror distance - an image that is formed due to the reflection of the car in which you are traveling.arrow_forwardDoes the law of reflection apply in plane mirror and spherical mirrors? Explainarrow_forward
- Suppose you would like to start a fire by focusing sunlight onto apiece of paper. In Conceptual Example 26-4 we saw that a concavemirror would be better than a convex mirror for this purpose. At whatdistance from the mirror should the paper be held for best results?arrow_forwardA mirror at an amusement park shows an uprightimage of any person who stands 1.9 m in front of it. If theimage is three times the person’s height, what is the radiusof curvature of the mirror? (See Fig. 23–50.)arrow_forwardA virtual image, we always say, cannot be caught on a screen. Yet when we ‘see’ a virtual image, we are obviously bringing it on to the ‘screen’ (i.e., the retina) of our eye. Is there a contradiction?arrow_forward
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