LeekWeek@lemmy.world to science@lemmy.worldEnglish · 7 months ago🌈 The Rainbow Only Contains 72% of All Colorsyoutu.beexternal-linkmessage-square28fedilinkarrow-up192arrow-down17file-text
arrow-up185arrow-down1external-link🌈 The Rainbow Only Contains 72% of All Colorsyoutu.beLeekWeek@lemmy.world to science@lemmy.worldEnglish · 7 months agomessage-square28fedilinkfile-text
Did someone tell you rainbows contain all the colors? Well, that’s not true! It is missing a whopping 28% of colors!🌈
minus-squareAbouBenAdhem@lemmy.worldlinkfedilinkEnglisharrow-up3·edit-27 months agoThe third parameter is saturation, which comes into play for non-monochromatic (i.e., multiple-wavelength) colors.
minus-squareMatFi@lemmy.thias.xyzlinkfedilinkEnglisharrow-up1·7 months agoThere is no such thing as a mono wavelength color. There are only spectral densities. Or in other words electromagnetic radiation / photons distributed over some energy.
minus-squareFeathercrown@lemmy.worldlinkfedilinkEnglisharrow-up2·7 months agoIs this a weird terminology argument? Because there are definitely ways to produce color that output one specific wavelength of light.
minus-squareMatFi@lemmy.thias.xyzlinkfedilinkEnglisharrow-up1·7 months agoYes at exactly 0K and without quantumechanics…
The third parameter is saturation, which comes into play for non-monochromatic (i.e., multiple-wavelength) colors.
I agree
There is no such thing as a mono wavelength color. There are only spectral densities. Or in other words electromagnetic radiation / photons distributed over some energy.
Is this a weird terminology argument? Because there are definitely ways to produce color that output one specific wavelength of light.
Yes at exactly 0K and without quantumechanics…