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The radius of curvature of any spherical mirror is R. The distance VC = R is the mirror's radius along its principal axis, while the distance VF = f is the mirror's focal length along the principal axis.
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The diagram below shows a light ray parallel to the principal axis of a spherical convex mirror. Point F is the virtual principal focus and C is the mirror's center of curvature.
The final image of the candle formed by this mirror will be |
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The object is moved away from the mirror until it reaches position P (PV = 2 CV)
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The diagram below shows a ray of light traveling parallel to the principal axis of a concave spherical mirror. Point F is the principal focus and point C is the center of curvature.
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Summary question on plane mirrors.
An object placed ANYWHERE in front of a plane mirror always produces an image that is |
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