34 equal temperament
In musical theory, 34 equal temperament, also referred to as 34-tet, 34-edo or 34-et, is the tempered tuning derived by dividing the octave into 34 equal-sized steps (equal frequency ratios). Each step represents a frequency ratio of 34√2, or 35.29 cents .
History
Unlike divisions of the octave into 19, 31 or 53 steps, which can be considered as being derived from ancient Greek intervals (the greater and lesser diesis and the syntonic comma), division into 34 steps did not arise 'naturally' out of older music theory, although Cyriakus Schneegass proposed a meantone system with 34 divisions based in effect on half a chromatic semitone (the difference between a major third and a minor third, 25:24 or 70.67 cents).[citation needed] Wider interest in the tuning was not seen until modern times, when the computer made possible a systematic search of all possible equal temperaments. While Barbour discusses it,[1] the first recognition of its potential importance appears to be in an article published in 1979 by the Dutch theorist Dirk de Klerk.[citation needed] The luthier Larry Hanson had an electric guitar refretted from 12 to 34 and persuaded American guitarist Neil Haverstick to take it up.[citation needed]
As compared with 31-et, 34-et reduces the combined mistuning from the theoretically ideal just thirds, fifths and sixths from 11.9 to 7.9 cents. Its fifths and sixths are markedly better, and its thirds only slightly further from the theoretical ideal of the 5:4 ratio. Viewed in light of Western diatonic theory, the three extra steps (of 34-et compared to 31-et) in effect widen the intervals between C and D, F and G, and A and B, thus making a distinction between major tones, ratio 9:8 and minor tones, ratio 10:9. This can be regarded either as a resource or as a problem, making modulation in the contemporary Western sense more complex. As the number of divisions of the octave is even, the exact halving of the octave (600 cents) appears, as in 12-et. Unlike 31-et, 34 does not give an approximation to the harmonic seventh, ratio 7:4.
Scale diagram
The following are 15 of the 34 notes in the scale:
Interval (cents) | 106 | 106 | 70 | 35 | 70 | 106 | 106 | 106 | 70 | 35 | 70 | 106 | 106 | 106 | ||||||||||||||||
Note name | C | C♯/D♭ | D | D♯ | E♭ | E | F | F♯/G♭ | G | G♯ | A♭ | A | A♯/B♭ | B | C | |||||||||||||||
Note (cents) | 0 | 106 | 212 | 282 | 318 | 388 | 494 | 600 | 706 | 776 | 812 | 882 | 988 | 1094 | 1200 |
The remaining notes can easily be added.
Interval size
The following table outlines some of the intervals of this tuning system and their match to various ratios in the harmonic series.
interval name | size (steps) | size (cents) | midi | just ratio | just (cents) | midi | error |
perfect fifth | 20 | 705.88 | 3:2 | 701.95 | + | 3.93||
septendecimal tritone | 17 | 600.00 | 17:12 | 603.00 | − | 3.00||
lesser septimal tritone | 17 | 600.00 | 7:5 | 582.51 | +17.49 | ||
tridecimal narrow tritone | 16 | 564.71 | 18:13 | 563.38 | + | 1.32||
11:8 wide fourth | 16 | 564.71 | 11:8 | 551.32 | +13.39 | ||
undecimal wide fourth | 15 | 529.41 | 15:11 | 536.95 | − | 7.54||
perfect fourth | 14 | 494.12 | 4:3 | 498.04 | − | 3.93||
tridecimal major third | 12 | 458.82 | 13:10 | 454.21 | + | 4.61||
septimal major third | 12 | 423.53 | 9:7 | 435.08 | −11.55 | ||
undecimal major third | 12 | 423.53 | 14:11 | 417.51 | + | 6.02||
major third | 11 | 388.24 | 5:4 | 386.31 | + | 1.92||
tridecimal neutral third | 10 | 352.94 | 16:13 | 359.47 | − | 6.53||
undecimal neutral third | 10 | 352.94 | 11:9 | 347.41 | + | 5.53||
minor third | 9 | 317.65 | 6:5 | 315.64 | + | 2.01||
tridecimal minor third | 8 | 282.35 | 13:11 | 289.21 | − | 6.86||
septimal minor third | 8 | 282.35 | 7:6 | 266.87 | +15.48 | ||
tridecimal semimajor second | 7 | 247.06 | 15:13 | 247.74 | − | 0.68||
septimal whole tone | 7 | 247.06 | 8:7 | 231.17 | +15.88 | ||
whole tone, major tone | 6 | 211.76 | 9:8 | 203.91 | + | 7.85||
whole tone, minor tone | 5 | 176.47 | 10:9 | 182.40 | − | 5.93||
neutral second, greater undecimal | 5 | 176.47 | 11:10 | 165.00 | +11.47 | ||
neutral second, lesser undecimal | 4 | 141.18 | 12:11 | 150.64 | − | 9.46||
greater tridecimal 2⁄3-tone | 4 | 141.18 | 13:12 | 138.57 | + | 2.60||
lesser tridecimal 2⁄3-tone | 4 | 141.18 | 14:13 | 128.30 | +12.88 | ||
15:14 semitone | 3 | 105.88 | 15:14 | 119.44 | −13.56 | ||
diatonic semitone | 3 | 105.88 | 16:15 | 111.73 | − | 5.85||
17th harmonic | 3 | 105.88 | 17:16 | 104.96 | + | 0.93||
21:20 semitone | 2 | 70.59 | 21:20 | 84.47 | −13.88 | ||
chromatic semitone | 2 | 70.59 | 25:24 | 70.67 | − | 0.08||
28:27 semitone | 2 | 70.59 | 28:27 | 62.96 | + | 7.63||
septimal sixth-tone | 1 | 35.29 | 50:49 | 34.98 | + | 0.31
References
- J. Murray Barbour, Tuning and Temperament, Michigan State College Press, 1951.
- ^ Tuning and Temperament, Michigan State College Press, 1951
External links
- Dirk de Klerk. "Equal Temperament", Acta Musicologica, Vol. 51, Fasc. 1 (Jan. - Jun., 1979), pp. 140-150.
- Stickman: Neil Haverstick - Neil Haverstick is a composer and guitarist who uses microtonal tunings, especially 19, 31 and 34 tone equal temperament.