Mixing every color using light = white

Mixing every color using pigments (paint, ink, etc.) = black

    • @[email protected]
      link
      fedilink
      English
      54 months ago

      It came up as plain text for me

      Also if l if light was a zip file it would definitely be a zip bomb because of how varied just the visible color spectrum is

  • @[email protected]
    link
    fedilink
    164 months ago

    The whole mixing colors is white is kinda misleading.

    Colors only exist inside our mind, they don’t exist in physical reality. We have three receptors for wavelength information in the em spectrum in our eyes. They are S, M and L type and they are sensitive to a different range of wavelengths. The M and L range overlap quite a bit and are sensitive to a wider range of wavelengths. The S is apart on its own and quite focused. The receptors turn that wavelength information into signals our brains can read out. Simply speaking the eyes tell our brain for a given part of our retina we have x amount of S energy, x amount of M energy and x amount of L energy. That’s all the information we get.

    So our brain combines this information and decides what color it’s supposed to be. As a child we learn what the different colors are. So we correlate those energy levels to the colors we are taught. This is highly subjective as each brain and set of eyes is different. Most men for example have less sensitivity to colors compared to most women (exceptions exist, this is generally speaking). Thus men see different energy levels, but still can see colors just fine for the most part. However women are on average able to distinguish between more shades of the same color, because they have more information to work with.

    In the modern era however we found out our brains aren’t very picky and will just guess what color something is. In sunlight there is a broad range of wavelengths, which we associate with white light. However when making white leds we found out you can just output some spikes of light in the correct ranges and our brains will say jup that’s white. You can also output shit outside of the wavelength of our three detectors and we don’t notice or care. This makes cheap energy efficient white leds possible.

    In the early days the peaks were very narrow with not the best wavelengths. We would see this light as white, but it wouldn’t be comfortable. Without saying exactly why, we would experience the light as harsh or get headaches after a while. Modern white leds are very comfortable for our eyes and available in a whole range of whites to suit our needs.

    So while a whole lot of wavelengths combined like the light from the sun is white. A bunch of random spikes is also white. It doesn’t have to be all colors.

    Also because colors only exist in our minds, things like grayscale colors, impossible colors and metallic colors are also a thing. There’s a whole lot more to colors than just em radiation at a certain wavelength.

    • Cornflake
      link
      fedilink
      English
      74 months ago

      Shoutout to Shuji Nakamura for making LED lighting as wev know possible. He invented the first significantly bright blue LEDs, consequently using what he knew to make white LEDs a thing

  • @over_clox
    link
    04 months ago

    Pure black and pure white are the null points in the color spectrum. Everything in between is a gradient. And rainbows are not the default gradient, the shadow behind you is just a dimmer shade of the same color.

      • @over_clox
        link
        14 months ago

        My color processing system is neither additive nor subtractive, at least not in the contemporary sense.

        My system adds, subtracts, and adjusts the actual colors, without interfering with the brightness.

        • @[email protected]
          link
          fedilink
          14 months ago

          Dude your mom adds, subtracts and adjusts the actual colors without interfering with the brightness.

    • @ricdeh
      link
      English
      24 months ago

      What do you mean? “Rainbows” relate to frequency while shadows correspond to intensity.

      • @over_clox
        link
        -1
        edit-2
        4 months ago

        Exactly. Rainbows are a rare phenomenon, shadows are common.

        Edit: I have an entire custom software that I wrote to process this very basic concept.