Nope. Purple is a wavelength that partially triggers both the red and blue cones.
The visual spectrum is continuous, not just three wavelengths corresponding to the three cones.
The blue cones and the red cones are stimulated by purple light. It’s a mix of blue and red signals from the retina, but the light is a single wavelength that is actually purple.
No, purple is a non spectral colour meaning it is incorrect to call it “a wavelength” but rather you say it is a perception of multiple wavelengths. Not that this is special, pretty much everything you see is a non-spectral colour.
Purple is what you get when you force the visible light spectrum into a wheel, so there’ll be something that “connects” blue with red?
If so, is the reason we perceive green as a different color than purple is because we have receptors for that specific wavelength, otherwise both colors would affect our red and blue color receptors similarly?
Essentially, yes. Although violet is a colour, and that does correspond to a wavelength of light. I’m not really sure where violet ends and purple begins.
Looks like this guy has had a crack at explaining the difference, though.
Yes.
Purple is not a single color. Maybe a spectrum analysis could answer this for a given instance of purple, but that’s not my area of knowledge.
Surgically, purple is not a wavelength, unlike red(s) at ~700nm and blue(s) at ~400nm.
Purple is what human eyes see when the blue and red cones are both stimulated by their respective colours of light.
I like that some people are so confident in their incorrect understanding of something that they’ll downvote the correct answer.
What you said is correct.
Urgh, I go to sleep, wake up, read soooooo much awful wrongness.
Thanks for the vote of
confidencefact.Nope. Purple is a wavelength that partially triggers both the red and blue cones.
The visual spectrum is continuous, not just three wavelengths corresponding to the three cones.
The blue cones and the red cones are stimulated by purple light. It’s a mix of blue and red signals from the retina, but the light is a single wavelength that is actually purple.
Purple is a green wavelength that doesn’t trigger the green cones in your eyes.
It is made up by your brain.
Exactly
You would think this is true, but it isn’t.
This is the best in depth scientific explanation here, and deserves more upvotes. Thanks, was a nice read!
No, purple is a non spectral colour meaning it is incorrect to call it “a wavelength” but rather you say it is a perception of multiple wavelengths. Not that this is special, pretty much everything you see is a non-spectral colour.
So what would be the color created by a wavelength of 550nm?
Green or something
Ohhh, I think I get it.
Purple is what you get when you force the visible light spectrum into a wheel, so there’ll be something that “connects” blue with red?
If so, is the reason we perceive green as a different color than purple is because we have receptors for that specific wavelength, otherwise both colors would affect our red and blue color receptors similarly?
Essentially, yes. Although violet is a colour, and that does correspond to a wavelength of light. I’m not really sure where violet ends and purple begins.
Looks like this guy has had a crack at explaining the difference, though.
Right, indigo is a color (~425nm), violet is a color (~400nm), purple is typically a blend of colors.
See more: https://www.sciencelearn.org.nz/resources/47-colours-of-light
Fun fact: blends of colours are also colours.
Nu uh!
Okay, poor choice of words by me. Wavelength color vs what the eyes see.
No worries, sorry for the snark. I find colour fascinating, like, when you dream of a purple dinosaur that’s colour without any light at all.