For spherical mirrors, Object O stands on the central axis. In following situations as listed in the table including the object distance p in cm, the type of mirror, and the focal length fin cm (absolute value). Determine (including signs) the radius of curvature r, the image distance i, magnification m, whether the image is real (R) or virtual (V), inverted (1) or non-inverted (NI), and on the same side (S) or opposite side (O). р Mirror, f r i m R/V I/NI Side (S/O) Concave, 6 Concave, 30 Convex, 12 Concave, 15 Convex, 30 Convex, 8 231063 20 12

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For spherical mirrors, Object O stands on the central axis. In following situations as listed in
the table including the object distance p in cm, the type of mirror, and the focal length fin cm
(absolute value). Determine (including signs) the radius of curvature r, the image distance i,
magnification m, whether the image is real (R) or virtual (V), inverted (1) or non-inverted (NI),
and on the same side (S) or opposite side (O).
р
Mirror, f
r
m
R/V
I/NI
Side (S/O)
3
Concave, 6
10
Concave, 30
6
Convex, 12
30
Concave, 15
20
Convex, 30
12
Convex, 8
Transcribed Image Text:For spherical mirrors, Object O stands on the central axis. In following situations as listed in the table including the object distance p in cm, the type of mirror, and the focal length fin cm (absolute value). Determine (including signs) the radius of curvature r, the image distance i, magnification m, whether the image is real (R) or virtual (V), inverted (1) or non-inverted (NI), and on the same side (S) or opposite side (O). р Mirror, f r m R/V I/NI Side (S/O) 3 Concave, 6 10 Concave, 30 6 Convex, 12 30 Concave, 15 20 Convex, 30 12 Convex, 8
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