1. Read Land article for Thursday Test starts Wednesday of next week!!!!

3. Wavelength and Color Recall that light is electromagnetic radiation

4. Wavelength and Color Recall that light is electromagnetic radiation Light waves have a frequency/wavelength

5. Wavelength and Color Recall that light is electromagnetic radiation Light waves have a frequency/wavelength Frequency/wavelength is the physical property that corresponds (loosely) to the perception called color

6. Color Vision Different wavelengths correspond roughly to the “colors” of the spectrum Wavelength and Color

7. Color Vision White light is a mixture of wavelengths –prisms decompose white light into assorted wavelengths Wavelength and Color

8. Color Vision White light is a mixture of wavelengths –prisms decompose white light into assorted wavelengths –likewise, adding all wavelengths together recovers white light What happens if you mix several different paints together? Wavelength and Color

9. Color Vision Objects have different colors because they reflect some but not all wavelengths of light –the surfaces of objects are like filters that selectively absorb certain wavelengths Wavelength and Color

10. Color Vision Primary colors Perceiving Color What are the primary colors?

11. Color Vision Primary colors Perceiving Color Red Green Blue

12. Color Vision Primary colors Perceiving Color What makes them primary?

13. Color Vision Primary colors Every color (hue) can be created by blending light of the three primary colors in differing proportions Perceiving Color

14. Color Vision Primary colors Every color (hue) can be created by blending light of the three primary colors in differing proportions Led to prediction that there must be three (and only three) distinct color receptor types Perceiving Color

15. Color Vision Perceiving Color Four absorption peaks in retina: 3 cone types plus rods Absorption/Cone response

16. Color Vision Theories of Color Vision “Blue” “Green” “Red” Blue Wavelength InputCone Signal to Brain

17. Color Vision Theories of Color Vision “Blue” “Green” “Red” Green Wavelength InputCone Signal to Brain

18. Color Vision Theories of Color Vision “Blue” “Green” “Red” Red Wavelength InputCone Signal to Brain

19. Color Vision Theories of Color Vision “Blue” “Green” “Red” Yellow Equal Parts Red and Green = Wavelength InputCone Signal to Brain

20. Color Vision Theories of Color Vision “Blue” “Green” “Red” Yellow Equal Parts Red and Green = Wavelength InputCone Signal to Brain

21. Color Vision Theories of Color Vision “Blue” “Green” “Red” Yellow Equal Parts Red and Green = Wavelength InputCone Signal to Brain

22. Color Vision Theories of Color Vision Trichromatic theory of color vision: –brain interprets the relative amounts of signaling from each of these cone types

23. Color Vision Theories of Color Vision Trichromatic theory of color vision: –brain interprets the relative amounts of signaling from each of these cone types This means that some colors can be matched by a pair of wavelengths –metamers: colors that have no definite single wavelength (e.g. yellow)

24. Color Vision Theories of Color Vision Trichromatic theory of color vision: –brain interprets the relative amounts of signaling from each of these cone types This means that some colors can be matched by a pair of wavelengths –metamers: colors that have no definite single wavelength (e.g. yellow) This also means that any color can be matched by mixing (not more than) three different wavelengths

25. Color Vision Theories of Color Vision Trichromatic Theory can explain some aspects of colorblindness: –most of us are trichromats –someone missing one of the three cone types is a dichromat –someone missing two is a monochromat –someone missing all cone types is called a rod monochromat (very poor vision!)

26. Color Vision Theories of Color Vision Trichromatic Theory can explain some aspects of colorblindness: –dichromats have only two primaries: any color they can see can be matched with differing proportions of the two wavelengths to which they are sensitive

27. Color Vision Theories of Color Vision Trichromatic Theory can explain some aspects of colorblindness: –dichromats have only two primaries: any color they can see can be matched with differing proportions of the two wavelengths to which they are sensitive –most common is deuteranopia (~3% of men, <1% of women) - missing “green” cones

28. Color Vision Theories of Color Vision Trichromatic Theory can explain some aspects of colorblindness: –dichromats have only two primaries: any color they can see can be matched with differing proportions of the two wavelengths to which they are sensitive –most common is deuteranopia (~3% of men, <1% of women) - missing “green” cones –cannot see color difference between reds and greens - but they can see luminance difference

29. Color Vision Theories of Color Vision Ishihara Color Plates can indicate color blindness

30. Color Vision Theories of Color Vision DON’T DO THIS ! …~3% of male readers will have trouble seeing it!

31. Color Vision Theories of Color Vision But this is OK.

32. Color Vision Theories of Color Vision So is this.

33. Color Vision Theories of Color Vision Even this is good.

34. Theories of Color Vision Problem with Trichromatic Theory:

35. Theories of Color Vision Problem with Trichromatic Theory: YELLOW

36. Theories of Color Vision Problem with Trichromatic Theory: –most people categorize colors into four primaries: red, yellow, green, and blue –some colors simply cannot be perceived as gradations of each other redish green !? blueish yellow !? –It is as if these colors are opposites

37. Theories of Color Vision Opponent-Process Theory –color is determined by outputs of two different continuously variable channels: red - green opponent channel blue - yellow opponent channel

38. Theories of Color Vision Opponent-Process Theory –Red opposes Green –(Red + Green) opposes Blue Opponent-Process Theory explains color afterimages

39. Color Vision White light is a mixture of wavelengths –prisms decompose white light into assorted wavelengths –OR recompose a spectrum into white light Wavelength and Color

40. Additive vs. Subtractive There are two different ways to mix colors.

41. Additive vs. Subtractive What do you get if you use a prism to combine all wavelengths of light?

42. Additive vs. Subtractive What do you get if you use a prism to combine all wavelengths of light?

43. Additive vs. Subtractive What do you get if you mix a bunch of paint?

44. Additive vs. Subtractive What do you get if you mix a bunch of paint?

45. Additive vs. Subtractive

46. Additive mixing is most intuitive: ADD wavelengths: red+green = yellow red+blue = magenta blue+green = cyan red+green+blue=white

47. Exploring Additive Mixing use color sliders to adjust R,G,B values