Keenspot

[sylver]

Hey, the Danny is getting sloppy.

Blue is a range of colors, not a single color. It's defined not only by a frequency, but also by a wavelength and energy of light, and the observable result is also a factor of the environment (specularity, etc.).

The impression caused upon the person observing said light is also affected by a number of other issues (the properties of the light cones in the eye, "post processing" of the signal, comparison to previously observed colors)...

In many ways, "extra blue" is more correct than 651.71 thz...

[Gav]

A frequency uniquely defines both wavelength and energy via E=hf and lambda = c/f. So nothing sloppy there.

Although, wavelength changes in a medium (changing c to v). Frequency stays the same, and that's what your eye sees as a color. I assume. If your eye were filled with glass, would it see different colors? I don't think so. So even though colors are usually defined by wavelength, I think it's frequency that is more appropriate.

It is true that most blues are a range of frequencies. However, a single frequency is also blue. Our eyes aren't very good spectrometers. As such, a wide range of blues can produce precisely the same visual stimulation as a single frequency, so it is at least possible to use a single frequency to describe what we see even if we are seeing a range.

In this case, Danny is using a spectrometer, so he would see the individual frequencies and/or ranges. I had actually assumed that he would see lines because labs tend to have fluorescent lights. He might then have just picked out the strongest line, read it off, and declared the object to be blue. However, it turns out that the "lines" of fluorescent lights aren't as narrow as I thought. So you got me there.

Still, it's reasonable to assume he could have read off an average frequency or centroid value of a range significantly narrowed by the lighting source.

In that case, so many significant digits would then, of course, be both unnecessary and misleading, but that is signature Danny.

[Gav]

What's much funnier is that amongst all this, no one noticed the much more obvious issue that the artist is getting sloppier and failed to fill in Julia's black shirt in every panel.

[towr]

Although, wavelength changes in a medium (changing c to v). Frequency stays the same, and that's what your eye sees as a color. I assume. If your eye were filled with glass, would it see different colors? I don't think so. So even though colors are usually defined by wavelength, I think it's frequency that is more appropriate.

Energy would then probably be most appropriate; if I remember correctly, what matters is exciting the bonds in the receptor molecule, which cause it to change shape and consequently causes a signal in the cones of the eye.

However, the color we "see" depends a lot on the context. There are good 'visual illusions' that demonstrate that two patches of color with the same spectrum can be either one color or another depending on the surrounding context. So saying a certain frequency is "blue" isn't really accurate, it's only blue under usual circumstances.