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Epitone
In sounds with higher pitches, the compressions that make up the sound are closer together; when the pitch is lower, they are farther apart. The wavelength of a sound, which is the distance from one compression to the next, is the speed of sound divided by the sound's frequency (pitch).
Lots of edges reflecting, refracting light in random patterns; thus you can't see through it.
The 'pitch' of a sound is determined by its frequency. Humans can hear between About 300-700Hz so any value between these would be considered a different pitch. For example two different pitches would be 350.00000001Hz and 350.0000003Hz but wether the you could noticeably hear the difference I am doubtful
I believe it's a white noise
randomly spaced, evenly spaced, and clumped distribution.
You might be thinking of 'white noise' except that white noise isn't really a random mix of pitches. I believe it is a deliberate mix of a very wide range of pitches. White noise is about as nonmusical as complete silence, but then again silence is not entirely nonmusical. I wouldn't enjoy a steady diet of white noise, but there are some experimental musics that incorporate it as an element.
No. Low pitches.
Uniform, Clumped and Random
Clumped,uniform,and random
chance
words
It has the weirdest and most random weather patterns.
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Patterns of Sound and Light - 2005 was released on: USA: 29 December 2005
The reason why random distribution patterns for species are the rarest in nature is because of biotic and abiotic factors. These give rise to organisms being clustered or spread out.