• betelgeuse [comrade/them]
    ·
    1 year ago

    It would be new colors. Visible light is a specific range. The chemicals in your cones react to visible light differently than other wavelengths. It's not that radio waves aren't hitting your retinas, it's that your don't have the special goo to do anything with them.

    If you had the special goo on top of the goo you already have, it would give a different signal to your brain than visible light. In order for the stretching scenario to occur, your goo would react to all forms of EM radiation but, for some reason, the signals are the exact same as visible light.

    • GarbageShoot [he/him]
      ·
      1 year ago

      This requires more proof. If you were correct, wouldn't it be possible to induce someone to see a vast number of colors that "don't exist"?

        • JuneFall [none/use name]
          ·
          edit-2
          1 year ago

          Quite interesting, for me:

          https://upload.wikimedia.org/wikipedia/commons/5/56/Chimerical-color-demo.svg

          Does show instead of the red, a bright pink with violet sprinkles, though.

          The other two, do fit though. (To use: Look for 20-60 seconds onto the X of the left column, then switch to the middle column X)

          Also a person which got more than three rods: https://johndasfundas.blogspot.com/2015/05/seeing-100-million-colors-100-times.html

          Sadly they don't show the wave length in which it works.

        • d_RLY2 [comrade/them, he/him]
          ·
          1 year ago

          Would people with synesthesia have a chance at "seeing" waves outside average range? I know that some or all of them speak of "hearing color" or "seeing sound."

            • Sushi_Desires
              ·
              edit-2
              1 year ago

              Yeah evidently the lenses filter those wavelengths out for our own protection, and supposedly some of it is perceptible to a degree for people who had the lenses removed. I remember reading somewhere that supposedly navies would use them as spotters, but I don't know how true that is, and it's a little difficult to search. People should also look up tetrachromia. Tetrachromats are people who [seem to] have an extra fourth type of cone that supposedly enriches the distinction between certain hues

              edited

      • betelgeuse [comrade/them]
        ·
        1 year ago

        I don't mean adding pigments surgically. I don't think it would work if you took a person and suddenly gave them the extra pigments required to see UV or whatever.

    • Tachanka [comrade/them]
      hexagon
      ·
      1 year ago

      neat! I knew a lot of birds are tetrachromats, but I didn't know some people are too

      • BigLadKarlLiebknecht [he/him, comrade/them]
        ·
        1 year ago

        mantis shrimp are cool

        The species Gonodactylus smithii is the only organism known to simultaneously detect the four linear and two circular polarisation components required to measure all four Stokes parameters, which yield a full description of polarisation. It is thus believed to have optimal polarisation vision. It is the only animal known to have dynamic polarisation vision. This is achieved by rotational eye movements to maximise the polarisation contrast between the object in focus and its background.

        • Tachanka [comrade/them]
          hexagon
          ·
          1 year ago

          Mantis Shrimp can also punch so fast that it causes sonoluminescence which is the emission of light from imploding bubbles in a liquid when excited by sound.

    • ElHexo
      ·
      edit-2
      3 months ago

      deleted by creator

        • ElHexo
          ·
          edit-2
          3 months ago

          deleted by creator

    • mechwarrior2 [he/him]
      ·
      1 year ago

      assuming the extra cone type adds one more independent color dimension for her, that makes her a tetrachromat overall.

      Assuming? We can't even get a cool claim "yeah I can see the shiny dimension of things"

      Tetrachromacy may also enhance vision in dim lighting, or in looking at a screen.

      This sucks

  • nemmybun [she/her, sae/saer]
    ·
    1 year ago

    I don't really have a direct answer to this though I feel like no matter the color being able to see radio waves would be pure misery. I imagine many (most?) electronics would pulse or shimmer with a bright (red?) glow and you'd be able to see it all the time through walls (and your eyelids). Every radio tower, every cell tower, every phone, etc. always visible forever. No fucking thanks

    • Dryad [she/her]
      ·
      1 year ago

      Honestly I think it would just kind of fade into a vague glow which our minds would filter out.

      • ElHexo
        ·
        edit-2
        3 months ago

        deleted by creator

        • Dryad [she/her]
          ·
          1 year ago

          Wtf that's what that's called? Fascinating, thanks for the link

    • JuneFall [none/use name]
      ·
      edit-2
      1 year ago

      Your eyes might have a second lid which would be able to reduce the penetration depth if that would be a problem. I do think that if the world would be as said, then the world and the human equivalent would be more or less able to deal with it. Though if electricity would've only just been generated, then that evolutionary step might not be done, so goods would've taken that role. blindfolds, farraday cages around your sleeping room and alike.

      It would be a world in which special objects are marked like in video games which is a fun idea.

      I really like you bringing up what you did though, since your comment made me have nice silly thoughts. Thanks!

  • AppelTrad [she/her]
    ·
    edit-2
    1 year ago

    Describing the perception of longer wavelengths as "seeing" might be a bit of a stretch. When I was taught about microscopes, it was explained that resolving finer details requires shorter wavelengths of light so the radio waves would be unhelpfully blurry.

    Also worth remembering that we're already sensitive to some infrared, which we experience as warmth rather than colour. If new sensing mechanisms are used to respond to other wavelengths of the EM spectrum, and if the brain is able to develop* so that it can integrate and process those inputs, then I imagine they'd be associated with experiences outside the familiar rainbow, just as warmth is.

    But if you're just going to somehow redefine the sensitivity† of our retinal pigments, then our brains aren't going to know that, and will process the signals it receives just the same, even if the photons initiating those signals are very different. This is how things like cochlear implants can be useful, after all. What I'm curious about now is: what happens when the chromatic appearance of familiar objects doesn't match memories? Over time, will the brain try to synthesize an experience that links the old and new perceptions?

    * Not just in infancy, but evolutionarily, since the visual cortex is going to need to work a whole lot harder. In the absence of those developments, I'd expect new stimuli, at best, to be arbitrarily mapped onto the processing regions for other stimuli, producing a kind of phantom colour experience.

    † We sort of do this when we look at false-colour images, and they don't have new colours; the colours we know are shifted and spread across different parts of the EM spectrum.

  • Dolores [love/loves]
    ·
    1 year ago

    oh my god why did they have to ruin the idea of new colors? because stretching, that like, makes sense stalin-stressed

    i mean sure we literally cannot imagine additional colors so obviously the bottom option is the only available view in our perception. but dat don't make it any less convincing kitty-cri-texas

  • Utter_Karate [he/him, comrade/them]
    ·
    1 year ago

    I like the color purple, so it's a shame in the stretched out version that it is reserved for the kind of extreme intensity gamma rays that would tear apart every living cell in your body the moment you viewed it.

  • SerLava [he/him]
    ·
    edit-2
    1 year ago

    If your brain was the same, probably yeah it would stretch.

    It would definitely stretch if the only change was that your 2 of your 3 cones changed to detect higher and lower frequencies, and the 3rd just widened - you'd have only one cone dedicated to the narrow spectrum that most people have 3 to detect, so anything that only emits our human-visible light would be nearly monochromatic.

    Who knows which color it would land on, but yeah it would definitely be monochromatic if an object wasn't warm, wasn't UV reflective, wasn't a radio, etc., you'd see it as monochromatic.

  • TerminalEncounter [she/her]
    ·
    1 year ago

    It'd probably be different colours if you just keep adding receptors sensitive to more and more wavelengths.

  • GarbageShoot [he/him]
    ·
    1 year ago

    It's all relative to the "equipment" (sense organs, brain regions, etc) doing the detecting, nothing intrinsic to the perception of light itself

  • SoyViking [he/him]
    ·
    1 year ago

    It would be patterns instead of colors. X-rays are Paisley while AM radio is checkerboard.

    • M68040 [they/them]
      cake
      ·
      1 year ago

      I need to find the source engine missing texture band

      • NPa [he/him]
        ·
        1 year ago

        "Source Engine Missing Texture Band is an experimental math-core/breakbeat musical group from Seattle, comprised of former programmers. Their dynamic style and wild scene presence earned them a 'Best New Music' from Pitchfork in 2011."

  • AFineWayToDie [he/him]
    ·
    1 year ago

    There's something of a cultural element to colours. Some cultures recognize blue-green as a separate colour from either component. And while violet and indigo are physically distinct, they just look like lighter and darker versions of the same colour to me. So I think the answer would be somewhat subjective.

    It would also probably be harder to distinguish differences at the same resolution as visible light when it came to very high or very low EM wavelengths.

    • Tachanka [comrade/them]
      hexagon
      ·
      edit-2
      1 year ago

      Some cultures recognize blue-green as a separate colour from either component

      I've heard that in Japanese everything from blue to green (including cyan, seafoam green, etc.) is simply lumped under one word but I don't know how true that is.

      • axont [she/her, comrade/them]
        ·
        edit-2
        1 year ago

        Japanese started using the word 緑 "midori" to mean green after the war and increased contact with western countries. The word midori used to refer to freshly growing plants, like the English words greenery or flora. Otherwise both blue and green were 青 (ao) until pretty recently, with green considered a particular shade of blue. And weirdly even though the word midori used to literally refer to vegetation, the word ao (blue) is still used to refer to vegetables or plants as green.

        This mirrors what happened in Chinese too, even with the same characters, although I'm not sure when Chinese started separating blue-green.

  • InternetLefty [he/him]
    ·
    1 year ago

    Would our ability to resolve the colors in the visible spectrum be reduced? If not, then we would be seeing new colors. Otherwise how would we distinguish what was previously yellow and red? In the bottom diagram they would be similarly indiscernible hues of green

    • Tachanka [comrade/them]
      hexagon
      ·
      1 year ago

      Would our ability to resolve the colors in the visible spectrum be reduced? If not, then we would be seeing new colors.

      Are you asking if there would be more "in-between" colors? That's a good question. Yeah I suppose those would count as new colors, though it's less interesting than the idea of a something you literally can't conceive of, rather than something "in between" two things you can conceive of. 🤔

      In the bottom diagram they would be similarly indiscernible hues of green

      yeah everything you interact with in your daily life would be green but then you'd also be able to see radio waves and microwaves and stuff. which would probably make everything look really busy. especially the sky.

      • InternetLefty [he/him]
        ·
        1 year ago

        We can tell the difference between orange-red and red and orange, but would we be able to tell the difference between the lighter green and the darker green with the same resolution? (i.e. could we still tell colors that were 4nm in wavelength apart?)

        I think the different colors are a perceptual artifact of our ability to resolve wavelengths of light that are really close together fairly easily. So I think if we could still do that fairly well (and consistently across the spectrum), we would HAVE to be seeing new colors, is what I'm saying.