College Physics
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Transcribed Image Text:A concave shaving mirror has a radius of curvature of +34.4 cm. It is
positioned so that the (upright) image of a man's face is 1.66 times the
size of the face. How far is the mirror from the face?
Number
i
8.6
Units
cm
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- You have a concave spherical mirror (the same holds if you had a convex mirror) If the value of q(the distance from the image to the mirror along the principal axis of the mirror) is 1.45m and the distance of p (the distance from the object to the mirror along the principal axis of the mirror) is 4.11m, what is the focal length of the mirror? The magnification equation and the sign convention for q imply that real images of real objects are always inverted (if both p and q are positive, m is negative); virtual images of real objects are always upright (if p is positive and q is negative, m is positive). Keeping the signs of p and q straight in your mind is the most challenging aspect of mirrors (and lenses). Fortunately, table 23.2 summarizes when p and q are positive and when they are negative.arrow_forwardAn object is located 14.3 cm in front of a convex mirror, the image being 10.8 cm behind the mirror. A second object, twice as tall as the first one, is placed in front of the mirror, but at a different location. The image of this second object has the same height as the other image. How far in front of the mirror is the second object located? Number i Unitsarrow_forwardA concave mirror has a radius of curvature of 68.4 inches. How far (in inches) from the mirror is the focal point?arrow_forward
- A concave spherical mirror has a radius of curvature of 3.8 m. If a candle that is 6.21 cm high is then placed 2.18 cm in front of the mirror, what is the height of the image formed in cm? Round your answer to 2 decimal places.arrow_forwardA concave mirror has the focal length equal to 0.609 m. To form a real image that is triple the size of the object on a screen, at what distance in front of the mirror should the screen be placed (in m; answer a positive number)?arrow_forwardWhen an object is placed 27.0 cm in front of a convex spherical mirror, a virtual image forms 14.5 cm behind the mirror. Determine the mirror's focal length in cm and the magnification. (a) the mirror's focal length in cm answer in cm (b) the magnificationarrow_forward
- A concave shaving mirror has a radius of curvature of +34.6 cm. It is positioned so that the (upright) image of a man's face is 2.76 times the size of the face. How far is the mirror from the face? Number i Unitsarrow_forwardYou have a concave spherical mirror (the same holds if you had a convex mirror) If the value of q (the distance from the image to the mirror along the principal axis of the mirror) is 1.86m and the distance of p (the distance from the object to the mirror along the principal axis of the mirror) is 3.7m, what is the focal length of the mirror? P h A C B h' Q I k 9 P 1 The magnification equation and the sign convention for q imply that real images of real objects are always inverted (if both p and q are positive, m is negative); virtual images of real objects are always upright (if p is positive and q is negative, m is positive). Keeping the signs of p and q straight in your mind is the most challenging aspect of mirrors (and lenses). Fortunately, table 23.2 summarizes when p and q are positive and when they are negative.arrow_forward
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