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Mirrors.

Published byStephen Bond Modified over 6 years ago

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Presentation on theme: "Mirrors."— Presentation transcript:

1 Mirrors

2 The Law of Reflection The angle of incidence EQUALS the angle of reflection

3 Two types of curved mirrors:
Concave and Convex

4 Parts of a spherical mirror
C: Center of curvature V: Vertex of mirror (center of mirror itself) F: Focal point (parallel rays reflected from mirror converge at this point) P: Principal axis (goes through C and F) r: Radius of curvature (distance from C to V) (r = 2f) f: Focal length (distance from F to V)

5 Rules of Mirror Ray Diagrams
Incident Rays Are reflected 1  Parallel to P Through F 2 Parallel to P 3 Through C Back on itself

6 Example 1 Image is located between _______ and ______
It is real/virtual It is upright/inverted It is reduced/enlarged/same size

7 Example 2 Image is located between _______ and ______
It is real/virtual It is upright/inverted It is reduced/enlarged/same size

8 Review Video https://www.youtube.com/watch?v=xrMvnjOgsig
Start at 5:45 and end at 10:05

9 Lenses

10 Two types of lenses: Concave and Convex

11 Parts of a Lens O: Optical center F: Focal point
F’: Virtual focal point P: Principal axis (goes through C and F)

12 Rules of Convex Lens Ray Diagrams
In to lens from object Out from lens 1  Parallel to P Through F 2 Through O Keep going straight

13 Example 1 Image is located between _______ and ______
It is real/virtual It is upright/inverted It is reduced/enlarged/same size

14 Rules of Concave Lens Ray Diagrams
In to lens from object Out from lens 1  Parallel to P Through F’ 2 Through O Keep going straight

15 Example 1 Image is located between _______ and ______
It is real/virtual It is upright/inverted It is reduced/enlarged/same size

16 Review Video https://www.youtube.com/watch?v=mfytZxM8lho
Start at 2:45 and Stop at 5:40

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