1. Mirrors Physics 202 Professor Lee Carkner Lecture 22

2. PAL #21 EM Waves  Two polarizing sheets   I 2 = I 1 cos 2  1,2 = ½I 0 cos 2 90 = 0   One absorbs all x components, one absorbs all y components  Three polarizing sheets  I 1 = ½ I 0  I 2 = I 1 cos 2  1,2  I 3 = I 2 cos 2  2,3 = ½I 0 (cos 2  1,2 ) (cos 2  2,3 )   What is maximum intensity   I 3 = (0.5) I 0 (0.5)(0.5) = 0.125 I 0

3. What is an Image?   When viewing an object directly your image corresponds to the actual position of the object  If the light is refracted or reflected, you see an image of the object at a position different from the actual

4. Object and Image

5. Types of Images  Virtual image   This is a virtual image  Real image 

6. Plane Mirrors   The images appear to be at a point behind the mirror   Light rays will hit the mirror and then reflect at some angle 

7. Rays from Image

8. Location of Image   From our knowledge of reflection and the geometry of the situation:  The image is the same distance behind the mirror as the object is in front of it

9. Seeing Images

10. Extended Objects   Each point in the image is directly in front of its actual position   Example: when you move your right hand your image appears as a person moving his left hand

11. Extended Object

12. Spherical Mirrors   A spherical mirror can either be concave (curved in towards the object) or convex (curved out away from the object)    The field of view is the area that the mirror reflects

13. Concave  For a concave mirror:   The field of view is smaller than that of a plane mirror    Concave mirrors are used to provide magnification (e.g. a shaving or make-up mirror)

14. Three Mirrors

15. Convex  For a convex mirror:   The field of view is larger than that of a plane mirror    Convex mirrors are used to view large areas (e.g. car side mirrors, security mirrors)

16. Three Mirrors

17. Focal Point  If an object is located an infinite distance from the mirror (e.g. a star) than the light rays are all parallel when they are incident on the mirror    The distance to the center of the mirror from the focal point is the focal length (f)

18. Real and Virtual

19. Focal Point and Convex Mirrors   If you trace back the rays they meet at a point behind the mirror called the virtual focus   For either mirror the radius of curvature r (the radius of the sphere or the distance to the center of curvature C) is related to the focal length by:

20. Images and Concave Mirrors  When the object is in front of the focal point (closer to the mirror) a virtual image appears in the mirror   When the object is behind the focal point (further from the mirror) the mirror will project a real image in front of the mirror   A real image is projected onto something, it is not behind the mirror

21. Real and Virtual Images

22. Mirror Equation  Where are the images and how large are they?   When measuring from the center of the mirror:     when I and F are on the other side of the mirror i and f are negative  1/p + 1/i = 1/f

23. Magnification  Spherical mirrors produce magnified images  |m| = h’/h  In terms of the image and object locations the magnification is given by: m = -i/p   Remember that i can be positive or negative

24. Ray Drawing  If you draw two different rays from an object the image will appear at the intersection of the rays   An extended object can be found by drawing several pairs of rays   When trying to find an image it often helps to draw rays based on 3 rules:

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