- Source: Vallotti temperament
- Vallotti temperament
- Vallotti
- Well temperament
- 12 equal temperament
- Young temperament
- Cent (music)
- Francesco Antonio Vallotti
- Just intonation
- William Hamilton Bird
- Shi'er lü
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The circulating temperament today referred to as Vallotti temperament (or simply Vallotti, Vallotti-Barca, Vallotti-Tartini, or Vallotti-Young) is a shifted version of Young's second temperament. Its attribution to the 18th-century organist, composer, and music theorist, Francesco Vallotti is a mistake, since there is no evidence that he ever suggested it. It is however audibly indistinguishable from a slightly different temperament that was in fact devised by Vallotti.
Vallotti's description of his temperament appears in book 2 of his treatise, Della scienza teorica e pratica della moderna musica (On the theoretical and practical science of modern music). Although he stated that he had developed his theoretical system—presumably including the details of his temperament—by 1728, the first book of his treatise was not published until 1779, the year before he died. At the time of his death, the other three books had not been published, and remained only in manuscript form until an edition of all four books was published in 1950, under the title Trattato della moderna musica (Treatise on modern music).
Vallotti's temperament received very little attention during his lifetime and for some time thereafter. In a treatise published in 1754, Vallotti's friend and colleague Giuseppe Tartini praised the former's approach to temperament, and outlined some of its features, but without giving sufficient detail for the temperament itself to be identified. In 1781, the mathematician William Jones noted Tartini's preference for Vallotti's temperament, and gave a similarly vague and unspecific description.
The temperament originally devised by Vallotti has six fifths tempered by 1⁄6 of a syntonic comma, five perfectly just, and one tempered by a schisma. In a manuscript which remained unpublished until 1987, the Italian chemist and musical theorist, Alessandro Barca, proposed that this latter fifth be widened by 5⁄6 of a schisma, and all the pure fifths be narrowed by 1⁄6 of a schisma. Barca's version thus has six fifths tempered by 1⁄6 of a syntonic comma, and six tempered by 1⁄6 of a schisma. In the temperament now commonly misattributed to Vallotti, the odd fifth out in his original is widened by a full schisma, and each of the six tempered fifths is narrowed by a further 1⁄6 of a schisma. This modern version thus has six fifths tempered by 1⁄6 of a Pythagorean comma, and six perfectly just. More recently, the tuning and keyboard construction expert, Owen Jorgensen, has proposed a version of Vallotti's temperament in which the beating frequencies of the tempered fifths, rather than their sizes, are chosen to be equal. In practice, none of these four versions is audibly distinguishable from any of the others, because no interval in any of them differs from the corresponding interval in any of the other three by as much as 2 cents.
Description
In the circulating temperament today commonly misattributed to Vallotti, each of the fifths B-F♯, F♯-C♯, C♯-G♯, G♯-E♭, E♭-B♭, and B♭-F are perfectly just, while the fifths F-C, C-G, G-D, D-A, A-E, and E-B are each 1⁄6 of a Pythagorean (ditonic) comma narrower than just. The exact and approximate numerical sizes of these fifths, in cents, are given by:
If sj Def= fj − 600 for j = 1,2, the sizes of the major thirds in this temperament are:
The following table gives the pitch differences in cents between the notes of a chromatic scale tuned with this temperament and those of one tuned with equal temperament, when the note A of each scale is given the same pitch.
This temperament is merely a shifted version of Young's second temperament, which also has six consecutive pure fifths and six tempered by 1⁄6 of a Pythagorean comma. In Young's second temperament, however, the sequence of tempered fifths starts from the note C, rather than from F, as they do in the temperament today commonly misattributed to Vallotti.
Other versions
= Vallotti's original
=In the original description of his temperament, Vallotti made each of the fifths B-F♯, F♯-C♯, C♯-G♯, G♯-E♭, and E♭-B♭ perfectly just, just as in the modern version, but rather than making the fifths F-C, C-G, G-D, D-A, A-E, and E-B narrower than just by a 1⁄6 of a Pythagorean comma, he had narrowed them by only 1⁄6 of a syntonic comma. This left the remaining fifth, B♭-F, narrower than just by a schisma. The exact and approximate numerical sizes of these latter fifths, in cents, are given by:
If s1 is defined as above, and sj Def= fj − 600 for j = 3,4, the sizes of the major thirds in this temperament are:
The following table gives the pitch differences in cents between the notes of a chromatic scale tuned with this temperament and those of one tuned with equal temperament, when the note A of each scale is given the same pitch.
= Barca's suggested modification
=In an 18th-century work, which remained unpublished until 1987, Alessandro Barca suggested that the schisma discrepancy which Vallotti had left to fall entirely in the single fifth, B♭-F, be instead spread amongst the six fifths B-F♯, F♯-C♯, C♯-G♯, G♯-E♭, E♭-B♭, and B♭-F, thus making them each narrower than just by the negligible quantity 1⁄6 of a schisma (about 1⁄3 of a cent). The exact and approximate numerical size of these fifths, in cents, is given by:
If s3 is defined as above, and s5 Def= f5 − 600, the sizes of the major thirds in this temperament are:
The following table gives the pitch differences in cents between the notes of a chromatic scale tuned with this temperament and those of one tuned with equal temperament, when the note A of each scale is given the same pitch.
= Jorgensen's version with equal-beating fifths
=One of the leading experts on keyboard construction and tuning, Owen Jorgensen, contended that tempering fifths by precisely the same amount on keyboards—with the possible exception of the organ—was beyond the capabilities of tuning practices used before the twentieth century, and that the vast majority of keyboard tuners, when tuning by ear before the development of twentieth century tuning techniques, would have judged two adjacent or overlapping fifths to be the same whenever they beat at the same rate.
Jorgensen gave two sets of instructions for tuning Valotti's temperament in a way which he considered representative of what he believed would have been the results achieved by 18th- and 19th-century tuners. The first used a bearing plan for the octave F3 to F4, the second, a bearing plan for the higher octave, F4 to F5. In the first, middle C (C4) is tuned to a standard pitch of 220 4√2 Hz, all octaves, and the fifths B–F♯, F♯–C♯, C♯–G♯, E♭–B♭ and B♭–F are tuned just, while the fifths F3–C4, C3–G3, G3–D4, D3–A3, A3–E4, and E3–B3 are tuned narrow, all with a beat rate of 1.1 Hz. The amounts by which these tempered fifths are narrow range from 2.9 cents for A–E to 4.9 cents for C–G, and average to 3.8 cents, slightly less than a sixth of the Pythagorean comma. As a consequence, the diminished sixth G♯–E♭, which is required to be a perfectly just fifth in Vallotti proper, turns out to be tempered narrow by 0.6 cents in this version of Jorgensen's. The sizes of its major thirds in cents are:
The following table gives the pitch differences in cents between the notes of a chromatic scale tuned with Jorgensen's equal-beating version of Vallotti temperament and those of one tuned with equal temperament, when the note C4 of each scale is given the same pitch, 220 4√2 Hz.
Notes
References
Barbieri, Patrizio (1982), "Persistenza dei temperamenti inequabili nell'Ottocento italiano", L'Organo: Rivista di cultura organaria e organistica, XX: 57–124
Barbieri, Patrizio (1987), Acustica accordatura e temperamento nell'Illuminismo veneto. Con scritti inediti di Alessandro Barca, Giordano Riccati e altri autori, Rome: Torre d’Orfeo Editore, ISBN 88-85147-06-2
Damschroder, David; Williams, David Russell (1990), Music theory from Zarlino to Schenker: a bibliography and guide, Stuyvesant, NY: Pendragon Press, ISBN 0-918728-99-1
Di Veroli, Claudio (2013), Unequal Temperaments: Theory, History and Practice (3rd ed.), Bray, Republic of Ireland: Bray Baroque
Donahue, Thomas (2005), A Guide to Musical Temperament, Lanham, MD: Scarecrow Press, ISBN 0-8108-5438-4
Hansell, Sven (2001), Vallotti, Francesco Antonio, In Sadie & Tyrrell (2001), Vol. 26, pp.222–24
Hansell, Sven (2007), "Vallotti, Francesco Antonio", Grove Music Online, Oxford: Oxford University Press, retrieved 12 June 2017
Jones, William (1781), Physiological Disquisitions; or Discourses on the Natural Philosophy of the Elements (PDF), London: J. Rivington and Sons, archived from the original (PDF) on 2017-04-30, retrieved 2018-03-29
Jorgensen, Owen (1991), Tuning: containing the perfection of eighteenth-century temperament, the lost art of nineteenth-century temperament, and the science of equal-temperament, complete with instructions for aural and electronic tuning, East Lansing, MI: Michigan State University Press, ISBN 0-87013-290-3
Sadie, Stanley; Tyrrell, John, eds. (2001), The New Grove Dictionary of Music and Musicians (second ed.), London: Macmillan Publishers Ltd, ISBN 0-333-60800-3
Stillingfleet, Benjamin (1771), The Principles and Power of Harmony, London: J. and H. Hughs
Sturm, Fred (2011), "A Clear and Practical Introduction to Temperament History: Part 8 — Jorgensen's "Tuning"", Piano Technicians Journal, 54 (1), Kansas City, KS: Piano Technicians Guild: 20–22
Tartini, Giuseppe (1754), Trattato di musica secondo la vera scienza dell' armonia, Padua: Giovanni Manfrè