Rothenberg propriety Totally Explained

Everything about Rothenberg Propriety totally explained

In music, Rothenberg propriety denotes an important concept in the general theory of scales which was introduced by David Rothenberg in a seminal series of papers in 1978. The concept was independently discovered in a more restricted context by Gerald Balzano, who termed it coherence. The notion belongs to the class of concepts often, but misleadingly, termed diatonic set theory; in fact, as with most concepts of diatonic set theory, it applies far more widely than simply to the diatonic scale.

Definition of propriety

Rothenberg defined propriety in a very general context; however for nearly all purposes it suffices to consider what in musical contexts is often called a periodic scale, though in fact these correspond to what mathematicians call a quasiperiodic function. These are scales which repeat at a certain fixed interval higher each note in a certain finite set of notes. The fixed interval is typically an octave, and so the scale consists of all notes belonging to a finite number of pitch classes. If β_i denotes a scale element for each integer i, then β_i+℘ = β_i+Ω, where Ω is typically an octave of 1200 cents, though it could be any fixed amount of cents; and ℘ is the number of scale elements in the Ω period, which is sometimes termed the size of the scale.
   For any i one can consider the set of all differences by i steps between scale elements class(i) = . We may in the usual way extend the ordering on the elements of a set to the sets themselves, saying Astrictly proper if iproper if i ≤ j implies class(i) ≤ class(j). Strict propriety implies propriety but a proper scale need not be strictly proper; an example is the diatonic scale in equal temperament, where the tritone interval belongs both to the class of the perfect fourth, as an augmented fourth, and to the class of the perfect fifth, as a diminished fifth. Strict propriety is the same as coherence in the sense of Balzano.
Generic and specific intervals
The interval class class(i) modulo Ω depends only on i modulo ℘, hence we may also define a version of class, Class(i), for pitch classes modulo Ω, which are called generic intervals. The specific pitch classes belonging to Class(i) are then called specific intervals. The class of the unison, Class(0), consists solely of multiples of Ω and is typically excluded from consideration, so that the number of generic intervals is ℘-1. Hence the generic intervals are numbered from 1 to ℘-1, and a scale is proper if for any two generic intervals i < j implies class(i)diatonic set theory.
Diatonic scale theory
Balzano introduced the idea of attempting to characterize the diatonic scale in terms of propriety. There are no strictly proper seven-note scales in 12 equal temperament; however, there are five proper scales, one of which is the diatonic scale. Here we're not counting transposition separately, so that diatonic scale encompasses both the major diatonic scale and the natural minor scale. Each of these scales, if spelled correctly, has a version in any meantone tuning, and when the fifth is flatter than 700 cents, they all become strictly proper. In particular, five of the seven strictly proper seven-note scales in 19 equal temperament are one of these scales.
   These five scales are:
Diatonic: C D E F G A B Ascending minor: C D E♭ F G A B Harmonic minor: C D E♭ F G A♭ B Harmonic major: C D E F G A♭ B Major locrian: C D E F G♭ A♭ B♭
   In any meantone system with fifths flatter than 700 cents, we also have the following strictly proper scale: C D♭ E F♭ G A♭ B♭.
   The diatonic, ascending minor, harmonic minor, harmonic major and this last unnamed scale all contain complete circles of three major and four minor thirds, variously arranged. The Locrian major scale has a circle of four major and two minor thirds, along with a diminished third, which in septimal meantone temperament approximates a septimal major second of ratio 8/7. The other scales are all of the scales with a complete circle of three major and four minor thirds, which since (5/4)³ (6/5)⁴ = 81/20, tempered to two octaves in meantone, is indicative of meantone.
   The first three scales are of basic importance to common practice music, and the harmonic major scale often used, and the fact that the diatonic scale isn't singled out by propriety is perhaps less interesting than the fact that the backbone scales of diatonic practice all are.

Further Information
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