chapter23-web1

chapter23-web1 - Chapter 23 Mirrors and Lenses Flat Mirrors...

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1 Chapter 23 Mirrors and Lenses 1. Flat Mirrors 2. Spherical Mirrors 3. Thick lenses 4. Thin lenses 5. Aberrations
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2 Mirrors and Lenses: Notation and Image Types s The object distance (p) s The image distance (q) s The lateral magnification (M) s How do I calculate M s What is a Real Image? s What is a virtual Image? s How do I find where the image is? s The mirror equation
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3 Concave Mirror: Notation and Image formed s R s p s q s f
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4 Convex Mirror: Notation and Image formed s R s p s q s f
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5 Sign Conventions for Mirrors
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6 Ray Diagrams s How do I draw Ray diagrams?
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7 Ray Diagram for Concave Mirror, p > R s Object s Image s Type s Distance s Orientation s Size
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8 Ray Diagram for a Concave Mirror, p < f s Object s Image s Type s Distance s Orientation s Size
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9 Ray Diagram for a Convex Mirror s Object s Image s Type s Distance s Orientation s Size
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10 Example 1. A concave shaving mirror is designed to get a virtual image which is twice the size of the object, when the distance between the object and the mirror is 15 cm. Determine the radius of curvature of the mirror.
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This note was uploaded on 01/16/2012 for the course PHYSICS 105 taught by Professor Shaukatgoderya during the Spring '12 term at Tarleton.

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chapter23-web1 - Chapter 23 Mirrors and Lenses Flat Mirrors...

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