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Subtractive and additive, and how we see. Pigments - Color by Subtraction  Pigments reflect the color you see, and also it’s neighboring color (so green.

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Presentation on theme: "Subtractive and additive, and how we see. Pigments - Color by Subtraction  Pigments reflect the color you see, and also it’s neighboring color (so green."— Presentation transcript:

1 Subtractive and additive, and how we see

2 Pigments - Color by Subtraction  Pigments reflect the color you see, and also it’s neighboring color (so green reflects green and yellow and blue)  but Pigments absorb all other colors and turn them into heat.  Primary colors: Red, Yellow, Blue

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4 These shirts are reflecting red light and turning most other colors into heat.

5 These black clothes absorb all the light that falls on them and reflect no light. All the light is turned into heat.

6 These white shirts reflect all the colors of light that fall on them, absorbing no colors and turning none of the light into heat

7 Why does blue pigment + yellow pigment = green light?  Yellow absorbs R-B-V, reflects Y-O-G  Blue absorbs R-O-Y, reflects B-G-V  White minus R minus O minus Y minus B minus V = Green

8 Yellow absorbs violet, red, and blue light; yellow reflects yellow, Orange, and Green light Blue absorbs Yellow and Orange light Between blue and yellow pigments, all colors are absorbed except for green Both yellow and Blue pigments reflect Green light

9 Light - color by Addition No pigments involved! Only colored light! Primary Colors: Red, Green, Blue RGYELLOW R + G = YELLOW RBMAGENTA R + B = MAGENTA GBCYAN G + B = CYAN R + B + G = WHITE

10 Complimentary colors - add two and get WHITE GREEN MAGENTA G B R GREEN + MAGENTA = G + B + R = WHITE BLUE YELLOW B G R BLUE + YELLOW = B + G + R = WHITE RED CYAN R G B RED + CYAN = R + G + B = WHITE

11 RED PAPER ABSORBS BLUE LIGHT; the reflected light is red WHITE PAPER REFLECTS ALL COLORS OF LIGHT; the splash looks magenta Magenta

12 What is the color of water?

13 Water scatters whatever light it gets  Water preferentially absorbs red, turning it to heat and leaving green and blue to scatter back to the eye. That makes shallow water a cyan color. WHITE - RED = CYAN  If the light continues into deeper water, the green is also absorbed, leaving only blue to scatter. WHITE - RED - GREEN = BLUE  Finally, in the deepest water, even the blue is absorbed, leaving nothing to scatter (darkness) WHITE - RED - GREEN - BLUE = BLACK

14 Why is the sky blue?

15 Air transmits R-O-Y-G, but scatters blue and violet  The air molecules are about the same size as violet and blue wavelengths (very small). So, instead of traveling straight through, these colors take a “random walk” through the atmosphere; wherever you look, you see blue light coming at you. (Violet too, but we aren’t sensitive to it.)

16 Why are clouds white?

17 After all, they are made of water  And the color of water is cyan  Answer: cloud droplets come in all sizes - from violet-light wavelength-sized drops (that scatter violet light) to red-light-wavelength-sized drops. Because all colors of light are scattered, you see all the colors at once coming from the cloud - hence, a white cloud.

18 Try this at home:  Take a hard, colored candy, like Jolly Rogers  Smash it with a hammer to make all different sized bits  What colors are scattered from the bits?  All of them - that’s why it looks white.

19 Why is the setting sun red in an orange sky?

20 Same reason the sky is blue, but...  At sunset, the light travels through a layer of atmosphere that is  Thicker and  Full of dust and pollution  So the larger air particles scatter green and even yellow light along with the violet and blue, leaving a red & orange sky and sun.

21 What color are we most sensitive to?  Hint: it’s the color of fire trucks (new ones) and the signs at the airport and new safety T-shirts  And, we’re most sensitive to it because it’s the color the sun puts out most intensely

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23 What is the green flash?

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25 Green Flash Explained  Sunlight refracts as it goes from the cold air near space through the warm air near the earth’s surface  Which way does it bend?  Blue refracts the most, just as it does in a prism. Red refracts the least.  This means that there is a red sun, and a yellow sun above it, and so forth, ending in a violet sun

26 Cold Air (dense) Warm air (rare) Earth

27 Cold Air Warm air Earth The shortest wavelength, blue, refracts the most; red refracts the least. The air disperses (separates) the colors of white light.

28 Cold Air Warm air Earth The image of the sun separates into many images of rainbow colors, one above the other

29 One flash, two flash, Green flash, blue flash!

30 What’s with the funny shape?

31 To understand this, we need to understand mirages....

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33 Mirages are an effect of refraction  When the surface air is hot and the air above is cool, light bends upward  We see the light from a cloud coming at us from the ground  It looks like the sky is on the ground

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35 hot cold

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37 hot cold

38 The same thing happens with the setting sun  But, the light is dispersed into different colors, and  the various images of the sun collide on top of one another  So you get a funny shape with different colors

39 Green sun Yellow sun Orange sun Red sun

40 You’ve seen rainbows....

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44 Check out this!

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