Pitch space Guide, Meaning , Facts, Information and Description
In music pitch space is pitch relations, ie nearness or farness, represented through geometric models, most often multidimensional, how near or far pitches are from each other. Cognitive psychologistss including Longuet-Higgins (1978) and Shepard (1982), and composers and theorists including Weber (1824), Riemann, and Schoenberg (1954) created models of pitch space. There are generally at least two dimensions, one for pitch class and one for register (ie, the specific pitch), but there may be any number. (Lerdahl, 1992)Modulatory space is the pitch space within which modulation is possible. For twelve tone equal temperament, this includes only the twelve pitch classes.
The circle of fifths is one representation of pitch space, first proposed geometrically (see: Pythagoras) by Johann David Heinichen (1728), though he included the relative minor (thus the circle clockwise would read C, a, G, e...) (Lerdahl, 2001). The current major on the outside relative minor on the inside format was proposed by David Kellner (1737). M.W. Drobisch (1855) was the first to suggest a helix (ie the spiral of fifths) to represent octave equivalency and reoccurance (Lerdahl, 2001). Shepard (1982) uses a double helix of two wholetone scales over a circle of fifths which he calls the "melodic map" (Lerdahl, 2001). Michael Tenzer suggests its use for Balinese gamelan music since the octavess are not 2:1 and thus there is even less octave equivalency than in western tonal music (Tenzer, 2000).
Weber's "regional chart" centered on C major is:
| d# | F# | f# | A | a | C | c |
| g# | B | b | D | d | F | f |
| c# | E | e | G | g | Bb | bb |
| f# | A | a | C | c | Eb | eb |
| b | D | d | F | f | Ab | ab |
| e | G | g | Bb | bb | Db | db |
| a | C | c | Eb | eb | Gb | gb |
- Lower case letters indicate minor key, uppercase major. This was first proposed by Vial (1767) (later Weber, Riemann, Schoenberg), the advantage over the circle of fifths being that it represents both relative and parallel major. (Lerdahl, 2001)
Riemann's Tonnetz:
| A# | — | E# | — | B# | — | FX | — | CX | — | GX |
| | | | | | | | | | | | | |||||
| F# | — | C# | — | G# | — | D# | — | A# | — | E# |
| | | | | | | | | | | | | |||||
| D | — | A | — | E | — | B | — | F# | — | C# |
| | | | | | | | | | | | | |||||
| Bb | — | F | — | C | — | G | — | D | — | A |
| | | | | | | | | | | | | |||||
| Gb | — | Db | — | Ab | — | Eb | — | Bb | — | F |
| | | | | | | | | | | | | |||||
| Ebb | — | Bbb | — | Fb | — | Cb | — | Gb | — | Dbb |
- Perfect fifths are the horizontal axis, major thirds the vertical. First proposed by Euler, later used, not always in just intonation, by Hermann von Helmholtz (1863/1885), Arthur von Oettingen (1866), Renate Imag (1970), Longuet-Higgins (1962), Shepard (1982) "harmonic map"
- Perfect fifths are the horizontal axis, major thirds the vertical. First proposed by Euler, later used, not always in just intonation, by Hermann von Helmholtz (1863/1885), Arthur von Oettingen (1866), Renate Imag (1970), Longuet-Higgins (1962), Shepard (1982) "harmonic map"
- 3-limit just intonation
- 3-limit just intonation
| Level a: | C | C | |||||||||||
| Level b: | C | G | C | ||||||||||
| Level c: | C | E | G | C | |||||||||
| Level d: | C | D | E | F | G | A | B | C | |||||
| Level e: | C | Db | D | Eb | E | F | F# | G | Ab | A | Bb | B | C |
- (Lerdahl, 1992)
- (Lerdahl, 1992)
The matrices used in the twelve tone technique are not representations of pitch space as nearness nor farness is not indicated, or even possible since one may not move freely about.
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