5L 5s: Difference between revisions
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Tamnams shouldnt use rtt names directly |
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{{Infobox MOS | {{Infobox MOS | ||
| Name = | | Name = pentasymmetric, blackwoodian | ||
| Periods = 5 | | Periods = 5 | ||
| nLargeSteps = 5 | | nLargeSteps = 5 | ||
Revision as of 07:38, 15 April 2021
| ↖ 4L 4s | ↑ 5L 4s | 6L 4s ↗ |
| ← 4L 5s | 5L 5s | 6L 5s → |
| ↙ 4L 6s | ↓ 5L 6s | 6L 6s ↘ |
┌╥┬╥┬╥┬╥┬╥┬┐ │║│║│║│║│║││ ││││││││││││ └┴┴┴┴┴┴┴┴┴┴┘
sLsLsLsLsL
There is only one significant harmonic entropy minimum with this MOS pattern: blackwood, in which intervals of the prime numbers 3 and 7 are all represented using steps of 5edo, and the generator gets you to intervals of 5 like 6/5, 5/4, or 7/5.
The true MOS, LsLsLsLsLs, is always proper because there is only one small step per period, but because there are 5 periods in an octave, there are a wealth of near-MOSes in which multiples of the period (that is, intervals of an even number of steps) are the only generic intervals that come in more than two different flavors. Specifically, there are 6 others: LLssLsLsLs, LLssLLssLs, LLsLssLsLs, LLsLssLLss, LLsLsLssLs, LLsLsLsLss. In the blackwood temperament, these are right on the boundary of being proper (because 1\15 is in the middle of the range of good blackwood generators).
| Generator | Cents | Comments | ||||
|---|---|---|---|---|---|---|
| 0\5 | 0 | |||||
| 1\30 | 40 | |||||
| 1\25 | 48 | |||||
| 240/(1+pi) | ||||||
| 1\20 | 60 | |||||
| 240/(1+e) | ||||||
| 2\35 | 68.57 | |||||
| 3\50 | 72 | |||||
| 1\15 | 80 | Blackwood is around here
Optimum rank range (L/s=2/1) for MOS | ||||
| 240/(1+sqrt(3)) | ||||||
| 3\40 | 90 | |||||
| 5\65 | 92.31 | Golden blackwood | ||||
| 240/(1+pi/2) | ||||||
| 2\25 | 96 | |||||
| 3\35 | 102.86 | |||||
| 4\45 | 103.33 | |||||
| 1\10 | 120 | |||||