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# Scale 2563: "Pofian" ### Bracelet Diagram

The bracelet shows tones that are in this scale, starting from the top (12 o'clock), going clockwise in ascending semitones. The "i" icon marks imperfect tones that do not have a tone a fifth above. Dotted lines indicate axes of symmetry.

### Tonnetz Diagram

Tonnetz diagrams are popular in Neo-Riemannian theory. Notes are arranged in a lattice where perfect 5th intervals are from left to right, major third are northeast, and major 6th intervals are northwest. Other directions are inverse of their opposite. This diagram helps to visualize common triads (they're triangles) and circle-of-fifth relationships (horizontal lines).

Dozenal
Pofian

## Analysis

#### Cardinality

Cardinality is the count of how many pitches are in the scale.

4 (tetratonic)

#### Pitch Class Set

The tones in this scale, expressed as numbers from 0 to 11

{0,1,9,11}

#### Forte Number

A code assigned by theorist Allen Forte, for this pitch class set and all of its transpositional (rotation) and inversional (reflection) transformations.

4-2

#### Rotational Symmetry

Some scales have rotational symmetry, sometimes known as "limited transposition". If there are any rotational symmetries, these are the intervals of periodicity.

none

#### Reflection Axes

If a scale has an axis of reflective symmetry, then it can transform into itself by inversion. It also implies that the scale has Ridge Tones. Notably an axis of reflection can occur directly on a tone or half way between two tones.

none

#### Palindromicity

A palindromic scale has the same pattern of intervals both ascending and descending.

no

#### Chirality

A chiral scale can not be transformed into its inverse by rotation. If a scale is chiral, then it has an enantiomorph.

yes
enantiomorph: 2059

#### Hemitonia

A hemitone is two tones separated by a semitone interval. Hemitonia describes how many such hemitones exist.

2 (dihemitonic)

#### Cohemitonia

A cohemitone is an instance of two adjacent hemitones. Cohemitonia describes how many such cohemitones exist.

1 (uncohemitonic)

#### Imperfections

An imperfection is a tone which does not have a perfect fifth above it in the scale. This value is the quantity of imperfections in this scale.

4

#### Modes

Modes are the rotational transformations of this scale. This number does not include the scale itself, so the number is usually one less than its cardinality; unless there are rotational symmetries then there are even fewer modes.

3

#### Prime Form

Describes if this scale is in prime form, using the Rahn/Ring formula.

no
prime: 23

#### Generator

Indicates if the scale can be constructed using a generator, and an origin.

none

#### Deep Scale

A deep scale is one where the interval vector has 6 different digits.

no

#### Interval Structure

Defines the scale as the sequence of intervals between one tone and the next.

[1, 8, 2, 1]

#### Interval Vector

Describes the intervallic content of the scale, read from left to right as the number of occurences of each interval size from semitone, up to six semitones.

<2, 2, 1, 1, 0, 0>

#### Interval Spectrum

The same as the Interval Vector, but expressed in a syntax used by Howard Hanson.

mns2d2

#### Distribution Spectra

Describes the specific interval sizes that exist for each generic interval size. Each generic <g> has a spectrum {n,...}. The Spectrum Width is the difference between the highest and lowest values in each spectrum.

<1> = {1,2,8}
<2> = {2,3,9,10}
<3> = {4,10,11}

#### Spectra Variation

Determined by the Distribution Spectra; this is the sum of all spectrum widths divided by the scale cardinality.

5.5

#### Maximally Even

A scale is maximally even if the tones are optimally spaced apart from each other.

no

#### Maximal Area Set

A scale is a maximal area set if a polygon described by vertices dodecimetrically placed around a circle produces the maximal interior area for scales of the same cardinality. All maximally even sets have maximal area, but not all maximal area sets are maximally even.

no

#### Interior Area

Area of the polygon described by vertices placed for each tone of the scale dodecimetrically around a unit circle, ie a circle with radius of 1.

0.5

#### Polygon Perimeter

Perimeter of the polygon described by vertices placed for each tone of the scale dodecimetrically around a unit circle.

3.767

#### Myhill Property

A scale has Myhill Property if the Interval Spectra has exactly two specific intervals for every generic interval.

no

#### Balanced

A scale is balanced if the distribution of its tones would satisfy the "centrifuge problem", ie are placed such that it would balance on its centre point.

no

#### Ridge Tones

Ridge Tones are those that appear in all transpositions of a scale upon the members of that scale. Ridge Tones correspond directly with axes of reflective symmetry.

none

#### Propriety

Also known as Rothenberg Propriety, named after its inventor. Propriety describes whether every specific interval is uniquely mapped to a generic interval. A scale is either "Proper", "Strictly Proper", or "Improper".

Improper

#### Heteromorphic Profile

Defined by Norman Carey (2002), the heteromorphic profile is an ordered triple of (c, a, d) where c is the number of contradictions, a is the number of ambiguities, and d is the number of differences. When c is zero, the scale is Proper. When a is also zero, the scale is Strictly Proper.

(5, 2, 16)

There are no common triads (major, minor, augmented and diminished) that can be formed using notes in this scale.

## Modes

Modes are the rotational transformation of this scale. Scale 2563 can be rotated to make 3 other scales. The 1st mode is itself.

 2nd mode:Scale 3329 Uyoian 3rd mode:Scale 29 Aduian 4th mode:Scale 1031 Gisian

## Prime

The prime form of this scale is Scale 23

 Scale 23 Aphian

## Complement

The tetratonic modal family [2563, 3329, 29, 1031] (Forte: 4-2) is the complement of the octatonic modal family [383, 2033, 2239, 3167, 3631, 3863, 3979, 4037] (Forte: 8-2)

## Inverse

The inverse of a scale is a reflection using the root as its axis. The inverse of 2563 is 2059

 Scale 2059 Moqian

## Enantiomorph

Only scales that are chiral will have an enantiomorph. Scale 2563 is chiral, and its enantiomorph is scale 2059

 Scale 2059 Moqian

## Transformations:

In the abbreviation, the subscript number after "T" is the number of semitones of tranposition, "M" means the pitch class is multiplied by 5, and "I" means the result is inverted. Operation is an identical way to express the same thing; the syntax is <a,b> where each tone of the set x is transformed by the equation y = ax + b

Abbrev Operation Result Abbrev Operation Result
T0 <1,0> 2563       T0I <11,0> 2059
T1 <1,1> 1031      T1I <11,1> 23
T2 <1,2> 2062      T2I <11,2> 46
T3 <1,3> 29      T3I <11,3> 92
T4 <1,4> 58      T4I <11,4> 184
T5 <1,5> 116      T5I <11,5> 368
T6 <1,6> 232      T6I <11,6> 736
T7 <1,7> 464      T7I <11,7> 1472
T8 <1,8> 928      T8I <11,8> 2944
T9 <1,9> 1856      T9I <11,9> 1793
T10 <1,10> 3712      T10I <11,10> 3586
T11 <1,11> 3329      T11I <11,11> 3077
Abbrev Operation Result Abbrev Operation Result
T0M <5,0> 673      T0MI <7,0> 169
T1M <5,1> 1346      T1MI <7,1> 338
T2M <5,2> 2692      T2MI <7,2> 676
T3M <5,3> 1289      T3MI <7,3> 1352
T4M <5,4> 2578      T4MI <7,4> 2704
T5M <5,5> 1061      T5MI <7,5> 1313
T6M <5,6> 2122      T6MI <7,6> 2626
T7M <5,7> 149      T7MI <7,7> 1157
T8M <5,8> 298      T8MI <7,8> 2314
T9M <5,9> 596      T9MI <7,9> 533
T10M <5,10> 1192      T10MI <7,10> 1066
T11M <5,11> 2384      T11MI <7,11> 2132

The transformations that map this set to itself are: T0

## Nearby Scales:

These are other scales that are similar to this one, created by adding a tone, removing a tone, or moving one note up or down a semitone.

 Scale 2561 Podian Scale 2565 Pogian Scale 2567 Puhian Scale 2571 Pukian Scale 2579 Pupian Scale 2595 Rolitonic Scale 2627 Qerian Scale 2691 Rahian Scale 2819 Rujian Scale 2051 Tritonic Chromatic 2 Scale 2307 Ocoian Scale 3075 Tetratonic Chromatic 3 Scale 3587 Pentatonic Chromatic 4 Scale 515 Depian Scale 1539 Jikian

This scale analysis was created by Ian Ring, Canadian Composer of works for Piano, and total music theory nerd. Scale notation generated by VexFlow, graph visualization by Graphviz, and MIDI playback by MIDI.js. All other diagrams and visualizations are © Ian Ring. Some scale names used on this and other pages are ©2005 William Zeitler (http://allthescales.org) used with permission.

Pitch spelling algorithm employed here is adapted from a method by Uzay Bora, Baris Tekin Tezel, and Alper Vahaplar. (An algorithm for spelling the pitches of any musical scale) Contact authors Patent owner: Dokuz Eylül University, Used with Permission. Contact TTO

Tons of background resources contributed to the production of this summary; for a list of these peruse this Bibliography. Special thanks to Richard Repp for helping with technical accuracy, and George Howlett for assistance with the Carnatic ragas.