Comment by pygy_
6 days ago
Color perception has nothing to do with light wavelength. Color is a subjective perceptual space.
If you zap your occipital cortex with electromagnetic pulses, you'll experience color flashes (phosphenes).
If a blind person who can read baille does the same, they'll experience tingling sensations in their fingers [1].
People can have visual experiences through somesthesic stimuli (you can give muddy waters divers sonar-based sight by stimulating their skin with an electrode array).
AFAIK, it is not however know whether someone who was blind at birth and whose brain didn't learn to see could have such experiences.
1. https://link.springer.com/article/10.1007/s00221-007-1091-0 full text: https://d1wqtxts1xzle7.cloudfront.net/50371662/s00221-007-10...
Re. color and wavelength, some of the colors one can experience are only accessible in after-images, not through direct retina stimulation.
Show me what is subjective about it then. What makes one illusion created out of flesh more real than another? How are any of these experiences subjective if you can already relate their nature so easily and universally? You are describing biomechanics, not subjective experience.
Are you saying that you are a literal philosophical zombie?
Do you understand the difference between feeling the pain in your toes when you shoot in a door frame and what you experience when you see someone else do the same.
Also not everyone can relate to these sensations, it is not universal. Some people don't feel any pain in their body (https://en.wikipedia.org/wiki/Congenital_insensitivity_to_pa...).
See also colorblindness as a common example, or tetrachromacy, which is posited in some individuals with at least two X chromosomes, and the norm in several species of birds.
Their color space has four dimensions.
People who lose parts of their brains can lose the ability to conceptualize the ability encoded by the region they lost.
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