• HobbitFoot
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    10 hours ago

    I’m sure someone is going to post a Technology Connections video that explains it all.

    • toynbee@lemmy.world
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      9 hours ago

      I don’t recall seeing a Technology Connections video on it, but there is a Slow Mo Guys video that touches on the topic.

  • JeeBaiChow@lemmy.world
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    3 hours ago

    Your eye can only resolve points at beyond a certain arc angle, below which two close points of light appear as a single point. It’s to do with the spacing between the photoreceptors in your eye (they are individual units that act as a single eye, not a single sensor, i.e. your eye has a resolution of its own), the wavelength of the light coming in, and some neurological stuff. Physics and biology.

    Edit: wanted to add that all color TV’s are made of a matrix of three color elements, usually with 2x the number of green versus red and blue. If it looks like it’s one color, then there’s usually a diffuser in the way, or you need to get in closer.

    • Hamartiogonic@sopuli.xyz
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      8 hours ago

      Fun fact, images printed on paper also rely on the same phenomenon. If human eyes were better, you would need smaller patterns to produce the same illusion.

      • XTL@sopuli.xyz
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        2 hours ago

        If you have some magazines or other print media around, take a nice magnifier of some sort to it. Or take a picture and zoom in

        • Hamartiogonic@sopuli.xyz
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          2 hours ago

          On large street posters you just need to walk closer to shatter the illusion. When you’re 100 m away, the picture looks perfect. Once you are close enough to touch the picture, you can clearly see that it’s composed of lots of small dots, and the colors are not even close to what you assumed before.

  • Strider
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    12 hours ago

    So in the back of your eyeballs are special photo receptive bits called cones that you use to see color. There are three different kinds and they each detect red, green, or blue light. Using those three sets of wavelengths and the overlap between them your brain combines which cones are receiving light to make up all the other colors.

    You might notice that pixels use those same colors. Once you back up enough it looks like each set of three pixels is actually a single point of light, so your brain combines the wavelengths into a single color.