730edo: Difference between revisions

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Prime factorization	2 × 5 × 73
Step size	1.64384 ¢
Fifth	427\730 (701.918 ¢)
Semitones (A1:m2)	69:55 (113.4 ¢ : 90.41 ¢)
Consistency limit	15
Distinct consistency limit	15

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Revision as of 05:59, 9 July 2023

Template:EDO intro

Theory

730edo is a very strong 5-limit system, but is also distinctly consistent up to the 15-odd-limit. It tempers out the counterschisma, [-69 45 -1⟩, the minortone comma, [-16 35 -17⟩, the kwazy comma, [-53 10 16⟩, the whoosh comma, [37 25 -33⟩, and the pirate comma, [-90 -15 49⟩. In the 7-limit it tempers out 4375/4374 and [-21 0 3 5⟩, so that it supports the mitonic temperament. In the 11-limit, 3025/3024 and [4 -3 -6 4 1⟩, so that it supports the deca temperament. In the 13-limit, 1001/1000 and 4225/4224, supporting 13-limit deca.

W. S. B. Woolhouse proposed 730edo^[1] as a logarithmic measure of interval size, sometimes called the Woolhouse unit. While 730 is divisible by 2, 5, 10, 73, 146 and 365, it is not divisible by 12 and it is also deficient, with abundancy index of 0.82, which limits its application as an interval size measure.

Prime harmonics

Approximation of prime harmonics in 730edo
Harmonic		2	3	5	7	11	13	17	19	23	29	31
Error	Absolute (¢)	+0.000	-0.037	-0.012	-0.607	-0.633	-0.528	+0.250	+0.021	-0.329	-0.536	+0.718
Error	Relative (%)	+0.0	-2.3	-0.8	-36.9	-38.5	-32.1	+15.2	+1.3	-20.0	-32.6	+43.7
Steps (reduced)		730 (0)	1157 (427)	1695 (235)	2049 (589)	2525 (335)	2701 (511)	2984 (64)	3101 (181)	3302 (382)	3546 (626)	3617 (697)

Intervals

W. S. B. Woolhouse, in his 1835 essay^[2], proposed:

… dividing the octave into 730 equal intervals, which we shall call degrees, the elemental intervals will be:
      Major-tone, t = 124 
      Minor-tone, tˌ= 111
      Limma,      θ =  68
      Comma,      c =  13
…
These numbers present a more accurate measurement of the musical scale than any other, unless we go to very high numbers. The greatest error which can arise from their natural or melodious combinations is that of the fifth, and does not amount to one half of the error of the major-tone above mentioned.
The concordant intervals are
      Minor-third ...... 192
      Major-third ...... 235
      Fourth ........... 303
      Fifth ............ 427
      Minor-sixth ...... 495
      Major-sixth ...... 538
      Octave ........... 730

Regular temperament properties

Subgroup	Comma list	Mapping	Optimal 8ve stretch (¢)	Tuning error
Subgroup	Comma list	Mapping	Optimal 8ve stretch (¢)	Absolute (¢)	Relative (%)
2.3	[-1157 730⟩	[⟨730 1157]]	+0.0117	0.0117	0.71
2.3.5	[-53 10 16⟩, [-16 35 -17⟩	[⟨730 1157 1695]]	+0.0096	0.0100	0.61
2.3.5.7	4375/4374, 2100875/2097152, [12 -3 -14 9⟩	[⟨730 1157 1695 2049]]	+0.0612	0.0899	5.47
2.3.5.7.11	3025/3024, 4375/4374, 391314/390625, 2100875/2097152	[⟨730 1157 1695 2049 2525]]	+0.0856	0.0940	5.72
2.3.5.7.11.13	1001/1000, 3025/3024, 4225/4224, 4375/4374, 2100875/2097152	[⟨730 1157 1695 2049 2525 2701]]	+0.0951	0.0884	5.38

Rank-2 temperaments

Table of rank-2 temperaments by generator
Periods per 8ve	Generator (Reduced)	Cents (Reduced)	Associated Ratio	Temperaments
1	99\730	162.74	1125/1024	Kwazy
1	111\730	182.47	10/9	Mitonic
1	113\730	185.75	[24 4 -13⟩	Pirate
1	303\730	498.08	4/3	Counterschismic
1	341\730	560.55	864/625	Whoosh
2	111\730	182.47	10/9	Seminar
10	192\730 (27\730)	315.62 (44.38)	6/5 (40/39)	Deca

Scales

Woolhouse diatonic scale

Woolhouse defined the following diatonic/heptonic scale for 730edo^[2].

According to this division of the octave into 730 degrees, which we shall here-after adopt, the diatonic scale will be —

Key ...   0
            ... 124 ... t ... Major-tone. 
2d  ... 124
            ... 111 ... tˌ... Minor-tone. 
3d  ... 235
            ...  68 ... θ ... Limma. 
4th ... 303
            ... 124 ... t ... Major-tone. 
5th ... 427 
            ... 111 ... tˌ... Minor-tone. 
6th ... 538
            ... 124 ... t ... Major-tone.
7th ... 662
            ...  68 ... θ ... Limma. 
8th ... 730

Woolhouse's diatonic scale in Ls notation is

LMsLMLs - L: 124, M: 111, s: 68

Inferred modes are shown in the following table.

Woolhouse 730EDO diatonic scale
Sequence	Mode (suggested name)	I1	I2	I3	I4	I5	I6	I7
LMsLMLs	Woolhouse Ionian	P1	M2	M3⁵	P4	P5	M6⁵	M7⁵
MsLMLsL	Woolhouse Dorian	P1	m2₅	m3₅	P4	P5	m6₅	m7₅
sLMLsLM	Woolhouse Phrygian	P1	M2⁵	M3⁵	P4	P5	M6⁵	m7
LMLsLMs	Woolhouse Lydian	P1	m2₅	m3₅	P4	d5¹⁷	m6₅	m7
MLsLMsL	Woolhouse Mixolydian	P1	M2⁵	m3¹⁹	P4	-	M6⁵	m7
LsLMsLM	Woolhouse Aeolian	P1	M2	M3⁵	A4⁵	P5	d7¹⁷₅	M7⁵
sLMsLML	Woolhouse Locrian	P1	M2	m3₅	P4¹⁹₇	P5	m6₅	m7₅

References

↑ A summary of W. S. B. Woolhouse's Essay on musical intervals, 1999 by Joe Monzo
↑ ^2.0 ^2.1 Essay on musical intervals, harmonics, and the temperament of the musical scale, &c, 1835 by Wesley Stoker Barker Woolhouse

[summary-1] A summary of W. S. B. Woolhouse's Essay on musical intervals, 1999 by Joe Monzo

[essay-2] 2.0 ^2.1 Essay on musical intervals, harmonics, and the temperament of the musical scale, &c, 1835 by Wesley Stoker Barker Woolhouse

[1]

[2]

Revision as of 05:32, 9 July 2023 view source BudjarnLambeth (talk \| contribs) autopatrolled, emailconfirmed 21,262 edits mNo edit summary ← Older edit		Revision as of 05:59, 9 July 2023 view source BudjarnLambeth (talk \| contribs) autopatrolled, emailconfirmed 21,262 edits mNo edit summary Newer edit →
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730edo: Difference between revisions

Revision as of 05:59, 9 July 2023

Contents

Theory

Prime harmonics

Intervals

Regular temperament properties

Rank-2 temperaments

Scales

Woolhouse diatonic scale

References

Navigation menu

730edo: Difference between revisions

Revision as of 05:59, 9 July 2023

Theory

Prime harmonics

Intervals

Regular temperament properties

Rank-2 temperaments

Scales

Woolhouse diatonic scale

References

Navigation menu

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