1. COLORCOLOR

2. COLORCOLOR Why do I see all those pretty colors?

3. Electromagnetic spectrum:

4. Color wavelengths: Red: 650 nm

5. Color wavelengths: Red: 650 nm 0.000000650 meters

6. Color wavelengths: Red: 650 nm Orange: 590 nm 0.000000650 meters

7. Color wavelengths: Red: 650 nm Orange: 590 nm 0.000000650 meters 0.000000590 meters

8. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm 0.000000650 meters 0.000000590 meters

9. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters

10. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters

11. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters

12. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters

13. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters 0.000000475 meters

14. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm Indigo: 445 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters 0.000000475 meters

15. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm Indigo: 445 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters 0.000000475 meters 0.000000445 meters

16. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm Indigo: 445 nm Violet: 400 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters 0.000000475 meters 0.000000445 meters

17. Color wavelengths: Red: 650 nm Orange: 590 nm Yellow: 570 nm Green: 510 nm Blue: 475 nm Indigo: 445 nm Violet: 400 nm 0.000000650 meters 0.000000590 meters 0.000000570 meters 0.000000510 meters 0.000000475 meters 0.000000445 meters 0.000000400 meters

18. Why do I see certain colors? White:

19. Why do I see certain colors? White: Objects that appear to be white reflect all portions of the energy frequencies of visible light.

20. Why do I see certain colors? White: Objects that appear to be white reflect all portions of the energy frequencies of visible light.

21. Why do I see certain colors? White: Objects that appear to be white reflect all portions of the energy frequencies of visible light.

22. Why do I see certain colors? Black:

23. Why do I see certain colors? Black: Objects that appear to be black absorb all portions of the energy frequencies of visible light.

24. Why do I see certain colors? Black: Objects that appear to be black absorb all portions of the energy frequencies of visible light.

25. Why do I see certain colors? Black: Objects that appear to be black absorb all portions of the energy frequencies of visible light.

26. Why do I see certain colors? Grey:

27. Why do I see certain colors? Grey: Objects that appear to be grey absorb and reflect equal percentages of all portions of the energy frequencies of visible light.

28. Why do I see certain colors? Grey: Objects that appear to be grey absorb and reflect equal percentages of all portions of the energy frequencies of visible light.

29. Why do I see certain colors? Grey: Objects that appear to be grey absorb and reflect equal percentages of all portions of the energy frequencies of visible light.

30. Why do I see certain colors? Other colors:

31. Why do I see certain colors? Other colors: Objects that appear to be a color reflect the color / colors you see and absorb all other colors.

32. Why do I see certain colors? Other colors: Objects that appear to be a color reflect the color / colors you see and absorb all other colors.

33. Why do I see certain colors? Other colors: Objects that appear to be a color reflect the color / colors you see and absorb all other colors.

34. Primary Colors:

35. Red

36. Primary Colors: Red Green

37. Primary Colors: Red Green Blue

38. Primary Colors: Red Green Blue When all three are combined equally they make white light.

39. Primary Colors: Red Green Blue When all three are combined equally they make white light. When two are combined equally they make a secondary color.

40. Secondary Colors:

41. Yellow

42. Secondary Colors: Yellow (red + green)

43. Secondary Colors: Yellow (red + green) Cyan

44. Secondary Colors: Yellow (red + green) Cyan (green + blue)

45. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta

46. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta (red + blue)

47. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta (red + blue) Any two colors that combine to form white light are called complementary colors.

48. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta (red + blue) Any two colors that combine to form white light are called complementary colors. (yellow and blue)

49. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta (red + blue) Any two colors that combine to form white light are called complementary colors. (yellow and blue / cyan and red /)

50. Secondary Colors: Yellow (red + green) Cyan (green + blue) Magenta (red + blue) Any two colors that combine to form white light are called complementary colors. (yellow and blue / cyan and red / magenta and green)

51. Pigments:

52. Pigments are substances that are used to color other materials.

53. Pigments: Pigments are substances that are used to color other materials. The primary colors of pigments are cyan, yellow, and magenta.

54. Prisms :What is happening?

55. When white light enters a prism its speed is changed.

56. Prisms :What is happening? White light enters a prism its speed is changed. Each wavelength is effected differently.

57. Prisms :What is happening? White light enters a prism its speed is changed. Each wavelength is effected differently. The longer the wavelength the less bending there will be.

58. Prisms :What is happening? White light enters a prism its speed is changed. Each wavelength is effected differently. The longer the wavelength the less bending there will be. The shorter the wavelength the more bending there will be.

59. Prisms:

60. Lenses and mirrors:

61. Convex:

62. Lenses and mirrors: Convex: curved or rounded outwardly (like the surface of a globe).

63. Lenses and mirrors: Convex: curved or rounded outwardly (like the surface of a globe). Concave:

64. Lenses and mirrors: Convex: curved or rounded outwardly (like the surface of a globe). Concave: curved or rounded inwardly (like the inside of a bowl).

65. Lenses: How do they work? Lens

66. Lenses: How do they work? Lens Transparent piece of glass or plastic that refracts light in a predictable way

67. Diverging/Concave lens A concave lens causes light to diverge, or spread out, making an smaller image.

68. Convex lens A convex lens

69. Convex lens A convex lens causes light to converge, or focus, the type of image formed by a convex lens depends on the position of the object in relation to the focal point.

70. Convex lens A convex lens causes light to converge, or focus, the type of image formed by a convex lens depends on the position of the object in relation to the focal point.

71. Convex lens A convex lens causes light to converge, or focus, the type of image formed by a convex lens depends on the position of the object in relation to the focal point. Notice, that was what up is down and what was down is up after the focal point

72. Convex lens A convex lens causes light to converge, or focus, the type of image formed by a convex lens depends on the position of the object in relation to the focal point. Notice, that was what up is down and what was down is up after the focal point

73. Essential Knowledge, Skills, and Processes Identify some common optical tools, and describe whether each has lenses, mirrors, and/or prisms in it. These should include: eyeglasses flashlights cameras binoculars microscopes

74. Essential Knowledge, Skills, and Processes Eyeglasses: have lenses c. Hyperopia (farsightedness) a. Normal eye b. Myopia (nearsightedness) Corrected with concave lens Corrected with convex lens No correction needed

75. Essential Knowledge, Skills, and Processes Flashlight: has lenses and a mirror

76. Essential Knowledge, Skills, and Processes Cameras: have lenses, mirrors, and a prism

77. Essential Knowledge, Skills, and Processes Binoculars: have lenses and prisms

78. Essential Knowledge, Skills, and Processes Microscope: has lenses

79. How have humans used science to engineer technologies that use electromagnetic energy? 1. Use of lasers Laser: Powerful energy of light due to concentrating one wavelength (frequency)(color) of light All energy is lined up

80. Lasers On “same wavelength” In sync with one another (laser) Flashlight

81. Lasers Uses:

82. Lasers Uses: Fiber optics Surgery

83. Lasers Uses: Fiber optics Surgery UPC codes

84. Lasers Uses: Fiber optics Surgery UPC codes Burning and reading CD’s, DVD’s & optical flash drives