1. AP Physics IV.C Geometric Optics

2. 25.1 Wave Fronts and Rays

3. 25.2 Reflection of Light

4. Specular and diffuse reflection

5. 25.3 Plane Mirrors

6. Five Properties of the image of a Plane Mirror Upright Same size Located as far behind the mirror as the object is in front of the mirror Left to right reversed Virtual image

7. Ray Diagram for a Plane Mirror

8. Ex. What is the minimum mirror height needed for a person to see their full image?

9. 25.4 Spherical Mirrors (concave – converging and convex – diverging)

10. The focal length and radius of curvature

11. Ray diagrams for curved mirrors

12. 25.6 The mirror equation and magnification (and an impressive proof thrown in for free)

13. Summary of sign conventions for curved mirrors f is positive for a concave mirror and negative for a convex mirror s o is positive for an image located in front of the mirror (our only concern at this point) s i is positive for a real image (in front of the mirror) and negative for a virtual image (behind the mirror)

14. Ex. A 2.00 cm object is placed 7.10 cm from a concave mirror whose radius of curvature is 10.20 cm. Find the location and size of the image.

15. Ex. An object with a height of 1.20 cm is placed 6.00 cm in front of a concave mirror with a focal length of 10.0 cm. Find the location and height of the image.

16. Ex. An object is placed 66 cm in front of a convex mirror that has a focal length of 46 cm. Find the image distance and magnification.

17. 26.1 Refraction and Lenses

18. Refraction – the bending of light as it passes between two media with different optical densities

19. The index of refraction

20. p. 821: 1-6; Rev. 04B3, 04B5 2.0.5411 4.1.63, ? 6.0.800 04B3 a)1.2 EE -3 Wb b)-0.0136 V c)i. 0.023 A ii. ? d)? 04B5 a)i. -3600 J ii. Tough one – ΔU is number of gas particles times ΔK av (5400 J) iii. 9000 J b)Drawing c)i. drawing ii. yours

21. 26.2 Snell’s Law

22. Ex. Light is incident upon an equilateral crown glass prism at an angle of 45.0º to one face. Calculate the angle at which the light emerges from the opposite face.

23. p. 821: 9-10, 13, 16; Rev. 03B1 10.21.7º 16.a) 33ºb) 32º 03B1 a)Drawing b)100 N c)615 N d)Yours e)1.7 m/s 2

24. 26.3 Total Internal Reflection

25. Ex. A ray of light in a diamond (n = 2.42) strikes an interface at 28º. Will the beam of light enter the air or will it be reflected internally? Will the beam of light be reflected internally if the diamond is surrounded by water?

26. Applications of total internal reflection

27. 26.5 Dispersion of Light

28. p. 822: 23-25, 87B5, 01B4 24.37.8º 87B5 a)? b)53º c)1.9 EE 8 m/s d)3.2 EE -7 m (320 nm) e)39º 01B4 a)1.6 (hint: use slope of graph and Snell’s Law) b)i. 4.4 EE 14 Hz ii.1.9 EE 8 m/s iii. 4.3 EE -7 m c)Drawing d)37º

29. 26.6 Lenses

30. Two types of lenses

31. Images formed by converging lenses

32. Image formed by a diverging lens

33. A familiar friend

34. Sign conventions for lenses: f is positive for converging lenses and negative for diverging lenses s o is positive when light is reflected from the object (a real object) s i is positive when it is behind the lens (real image) and negative when it is in front of the lens (virtual image)

35. 81B5, 82B6, 86B6, 94B5 81B5 a)Drawing b) ? c)9 cm d) note: 2 nd lens is at F of 1 st 82B6a) 3fb) drawing c)? 86B6a) drawing b) 6 cm c) Drawing d)-2 cme) ? f)Hint: use image of 1 st lens as object of 2 nd 94B5 a) 2.3 EE 8 m/s b)Drawing c) 49º d)40 cm below pool bottom e)i. ?ii. Hint: are values for n closer or farther away than in water?