I blogged about why red+blue = purple: xanthir.com/b4XK0 This bugged the *crap* out of young me, and no one talks about it!
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@tabatkins Doesn't it just come down to that a 3 dimensional space can be spanned by any 3 orthogonal vectors?
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@davidbaron Your vision is not well-described as a 3-vector space.
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@tabatkins Why not? Each of our 3 response curves is a vector in the ∞-dimensional vector space of possible response curves.
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@davidbaron They're not independent, is why. They are ordered linearly, so the appearance of a loop is surprising.
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@tabatkins Do you mean overlapping ranges (still independent) or that one response curve changes when another responds?
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@davidbaron When using a single wavelength of light, there are colors you can't produce.
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@davidbaron Some colors are impossible with any amount of light, but you can trick your eyes into seeing them (super green, for example).
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@davidbaron The fact that spectral yellow and non-spectral yellow look the same isn't an accident, but purple vs red+blue *is*.
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@tabatkins No, I don't buy that distinction. They're both the result of a 3-D space.
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@tabatkins Functions from {1, 2, 3} → ℝ form a 3-D vector space. Functions from ℝ → ℝ form an ∞-D vector space.
Jul 28, 2014 · 7:08 PM UTC
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