Ditto, log scales closer approx how we perceive sound. like the difference between "white" noise and "pink noise."
White noise is more or less equal energy (noise) over the entire range of frequencies, from say 20hz-20khz. So if you were to think of it as visible light, the even balance would appear to look "white." Even though white noise is even from 20-20k, it sounds like it has more excess high frequency noise than low freq. This matches our perceived hearing. It's balanced, but it doesn't sure sound that way!
However, pink noise has more energy down low. So if you were to think of it as visible light, it would appear to look the color pink (redish). But pink noise to most humans, appears to "sound" even balanced over your entire hearing range.
That's sort of oversimplifying it, but you get the itea. Well, that's at least how I understand it. Some of comparisons only make sense when charted on a log scale. Freq response as perceived by humans is one of them.
White noise is more or less equal energy (noise) over the entire range of frequencies, from say 20hz-20khz. So if you were to think of it as visible light, the even balance would appear to look "white." Even though white noise is even from 20-20k, it sounds like it has more excess high frequency noise than low freq. This matches our perceived hearing. It's balanced, but it doesn't sure sound that way!
However, pink noise has more energy down low. So if you were to think of it as visible light, it would appear to look the color pink (redish). But pink noise to most humans, appears to "sound" even balanced over your entire hearing range.
That's sort of oversimplifying it, but you get the itea. Well, that's at least how I understand it. Some of comparisons only make sense when charted on a log scale. Freq response as perceived by humans is one of them.