![]() So what ever green is note wise, its complimentary opposite should be magenta. You see, a color wheel has the opposite to Green as Magenta. I think you’ve made the same mistake many people have made in their attempts. While I like many since the ancients like the idea of music and light being the same. Look up musical fractals on youtube, and Adam Neely will go more in depth about how time, rhythm, and pitch are all the exact same thing. Time and pitch are the exact same thing, as pitch is merely a unit of time, and time is a measurement of pitch. It very literally makes this tone, an audible note, and it is nothing more than a metronome click. At a tempo of 26,400 bpm, you have a frequency of 440 beats per second, which is concert A. When tempo is at 720 beats per minute, it has a frequency of 12 hertz, 12 beats per second. A tempo of 120 bpm is the same thing as the frequency of 2 hertz, because it is 2 beats per second, or 120 beats per minute. When it does so 440 times a second, we call that A. A guitar string, when plucked, wobbles back and forth. Pitch is merely an extremely fast ticking of a clock. Somewhere in the 28k range is a very high note that we cannot hear, yet your dog would be able to, because it is the range of a dog whistle. When it gets so fast that the periodicity is above 20,000 hertz, we can no longer perceive it as sound, but that does not mean that it is no longer a pitch. When that periodicity falls below 20 hertz, we can no longer hear pitch, and will instead hear the individual peaks and valleys as beats. ![]() If you make a metronome click that fast, it does the same thing.Īll sounds are just waves of constant periodicity. If you were able to hit a drum fast enough so that you were hitting it 440 times a second, it would sound exactly like concert pitch A 440. It is the exact same relationship as the note ratios, and polyrhythms create harmonies of the same ratio when sped up (eg, a 4 on 3 polyrhythm has a 4:3 ratio, the same as a perfect 4th)Īll rhythm is the same thing as notes, it is just played at frequencies lower than about 15 hertz. Time is represented by tempo and by time signature, both of which are the exact same thing as pitch.Ī polyrhythm of 15/8 sped up until it is happening say 100 times a second, is the interval of a major 7th. Time! Time should have a frequency as well. Wrote a program for this a few years back. My task before this Friday is to match the frequency of notes to the frequency of colors on visual light spectrum. Also, that combinations of colours produce vibrational frequencies, akin to chords played on a piano. Black is the colour of closure, and the end of phrases. Hearing tones and chords as he painted, Kandinsky theorized, as an example, yellow is the colour for middle C on a brassy trumpet. He believed there was communication between the artist and viewer as being available to both the senses and the mind (synesthesia). In addition, Kandinsky was considered a “synthe”, he could colors as sound. Reading in depth about Kadinski and relation to music and art. Painting while listing to symphonic music. Unfortunately it was stored on a disc that was corrupted. This is great! I had written someyhing similar years ago. This entry was posted in Uncategorized by Endolith. Our audible range is 9–10 octaves, for comparison. Since the starting point of F♯ is arbitrary, basically all this means is that our visual range covers about 1 octave. Should find the nearest color names from the XKCD color survey instead (and “nearest” should be defined as distance in L*a*b* space, not in RGB space). I used this Python code to generate the RGB values for each wavelength, and Wolfram Alpha to find the nearest named HTML color. “A typical human eye will respond to wavelengths from about 390 to 750 nm.” Does it match up with ROYGBIV? Kinda. So I did! If you take the frequencies of each note in Hz (in equal temperament) and multiply them by 2 40 (40 octaves), you get a number in the THz, which would fall into the visual range if it represented the frequency of an electromagnetic wave instead of a sound wave. If you take A = 440 Hz and keep doubling and doubling until you get into the range of light you will find ROYGBIV = F, G, A, Bb, B, C, D, E, F. ![]()
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