Pitch class: Difference between revisions
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In terms of frequencies expressed in [[Hertz]], assuming a base frequency for middle C of 262 Hz, this would be {... 65.5, 131, 262, 524, 1028 ...}. In terms of midi note numbers, we can write it as {... 36, 48, 60, 72, 84 ...}. | In terms of frequencies expressed in [[Hertz]], assuming a base frequency for middle C of 262 Hz, this would be {... 65.5, 131, 262, 524, 1028 ...}. In terms of midi note numbers, we can write it as {... 36, 48, 60, 72, 84 ...}. | ||
In a [[nonoctave]] xenharmonic system, an interval other than the octave might be used to define [[equivalence]]. For example, in [[ | In a [[nonoctave]] xenharmonic system, an interval other than the octave might be used to define [[equivalence]]. For example, in [[Bohlen–Pierce]] tuning and other [[edt|equal divisions per tritave]], all pitches separated by a whole number of tritaves (3/1) may be considered equivalent. | ||
== See also == | == See also == | ||
Revision as of 18:37, 13 March 2025
A pitch class is a set (equivalence class) of all pitches that are a whole number of octaves (2/1) apart, e.g., the pitch class C consists of the Cs in all octaves. Thus the pitch class "C" is the set
[math]\displaystyle{ {..., C_{-2}, C_{-1}, C_0, C_1, C_2 ...} }[/math]
In terms of frequencies expressed in Hertz, assuming a base frequency for middle C of 262 Hz, this would be {... 65.5, 131, 262, 524, 1028 ...}. In terms of midi note numbers, we can write it as {... 36, 48, 60, 72, 84 ...}.
In a nonoctave xenharmonic system, an interval other than the octave might be used to define equivalence. For example, in Bohlen–Pierce tuning and other equal divisions per tritave, all pitches separated by a whole number of tritaves (3/1) may be considered equivalent.