![]() 03/03/2017 at 11:13 • Filed to: None | ![]() | ![]() |
...or strawberries, technically.
!!! UNKNOWN CONTENT TYPE !!!
![]() 03/03/2017 at 11:22 |
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You don’t know your vegetables. Those are grapes.
![]() 03/03/2017 at 11:23 |
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You’re nuts.
![]() 03/03/2017 at 11:25 |
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So there aren’t any actual red pixels, no. But there are red hues. If you note the R box is up at 181 - plenty of red in there, showing you can cover red with a transparent light blue, but that it just goes over top, like it needs another coat of paint.
![]() 03/03/2017 at 11:25 |
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Strawberries are an aggregate fruit! Berries are developed from a single ovary.
![]() 03/03/2017 at 11:27 |
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First thing I did was open it in Photoshop, too.
![]() 03/03/2017 at 11:29 |
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Those are Blueberries and Goldberries. You people are blind or stupid.
![]() 03/03/2017 at 11:30 |
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![]() 03/03/2017 at 11:33 |
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You’re an idiot, they’re obviously Avocados.
![]() 03/03/2017 at 11:35 |
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hahahaha, I did the same thing with that stupid f-ing dress.
![]() 03/03/2017 at 12:40 |
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That really blue me away when I red it.
![]() 03/03/2017 at 13:05 |
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Yea, no. There’s plenty of red in that image.
Here’s what it actually looks like with no red pixels:
![]() 03/03/2017 at 13:12 |
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So why do I get nothing but blues and grays when I use the eyedropper in Photoshop?
![]() 03/03/2017 at 13:17 |
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Because the eyedropper gives you the combination of the RGB makeup of each pixel. There is still a large amount of red in the pixel which your eye detects. What I did with the first image was set the green and blue values for every pixel to 0. The second image is the red values all set to 0.
![]() 03/03/2017 at 13:25 |
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By the same prof
McCollough Effect: http://www.scholarpedia.org/article/McCollough_effect