How we see color - Colm Kelleher

1,477,015 views ・ 2013-01-08

TED-Ed


Please double-click on the English subtitles below to play the video.

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Translator: Andrea McDonough Reviewer: Bedirhan Cinar
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You might have heard that light is a kind of wave
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and that the color of an object
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is related to the frequency of light waves it reflects.
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High-frequency light waves look violet,
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low-frequency light waves look red,
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and in-between frequencies look yellow,
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green,
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orange,
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and so on.
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You might call this idea physical color
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because it says that color is a physical property of light itself.
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It's not dependent on human perception.
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And, while this isn't wrong,
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it isn't quite the whole story either.
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For instance, you might have seen this picture before.
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As you can see, the region where the red and green lights overlap is yellow.
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When you think about it, this is pretty weird.
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Because light is a wave, two different frequencies
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shouldn't interact with each other at all,
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they should just co-exist
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like singers singing in harmony.
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So, in this yellow looking region,
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two different kinds of light waves are present:
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one with a red frequency,
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and one with a green frequency.
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There is no yellow light present at all.
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So, how come this region,
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where the red and green lights mix,
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looks yellow to us?
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To understand this, you have to understand a little bit about biology,
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in particular, about how humans see color.
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Light perception happens in a paper-thin layer of cells,
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called the retina,
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that covers the back of your eyeball.
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In the retina, there are two different types of light-detecting cells:
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rods and cones.
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The rods are used for seeing in low-light conditions,
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and there is only one kind of those.
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The cones, however, are a different story.
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There three kinds of cone cells that roughly correspond
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to the colors red,
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green,
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and blue.
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When you see a color,
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each cone sends its own distinct signal to your brain.
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For example, suppose that yellow light,
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that is real yellow light, with a yellow frequency,
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is shining on your eye.
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You don't have a cone specifically for detecting yellow,
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but yellow is kind of close to green
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and also kind of close to red,
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so both the red and green cones get activated,
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and each sends a signal to your brain saying so.
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Of course, there is another way to activate
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the red cones and the green cones simultaneously:
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if both red light and green light are present at the same time.
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The point is, your brain receives the same signal,
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regardless of whether you see light that has the yellow frequency
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or light that is a mixture of the green and red frequencies.
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That's why, for light, red plus green equals yellow.
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And, how come you can't detect colors when it's dark?
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Well, the rod cells in your retina take over
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in low-light conditions.
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You only have one kind of rod cell,
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and so there is one type of signal
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that can get sent to your brain:
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light or no light.
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Having only one kind of light detector
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doesn't leave any room for seeing color.
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There are infinitely many different physical colors,
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but, because we only have three kinds of cones,
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the brain can be tricked into thinking it's seeing any color
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by carefully adding together the right combination
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of just three colors:
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red, green, and blue.
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This property of human vision is really useful in the real world.
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For example, TV manufacturing.
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Instead of having to put infinitely many colors in your TV set
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to simulate the real world,
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TV manufacturers only have to put three:
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red, green, and blue,
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which is lucky for them, really.
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