Stretched and compressed tuning: Difference between revisions
mNo edit summary |
|||
| Line 8: | Line 8: | ||
== In xenharmonic music == | == In xenharmonic music == | ||
Within a xenharmonic context, stretched or compressed tuning may be used to reduce the [[harmonic entropy]] of a scale without sacrificing its melodic shape. | Within a xenharmonic context, stretched or compressed tuning may be used to reduce the [[harmonic entropy]] of a scale without sacrificing its melodic shape, or to achieve other artistic goals. | ||
Examples include (but are not limited to): | Examples include (but are not limited to): | ||
| Line 15: | Line 15: | ||
* [[Musical cells]] | * [[Musical cells]] | ||
* [[The Riemann zeta function and tuning#Optimal octave stretch|The Riemann zeta function and tuning#Optimal octave stretch]] | * [[The Riemann zeta function and tuning#Optimal octave stretch|The Riemann zeta function and tuning#Optimal octave stretch]] | ||
* [[Stretched harmonic series]] | |||
[[Category:Tuning]] | [[Category:Tuning]] | ||
Revision as of 02:28, 4 January 2024
In stretched tuning, two notes an equivalence apart, whose fundamental frequencies theoretically have an exact ratio, are tuned slightly farther apart (a stretched equivalence).
In compressed tuning, also known as narrowed tuning, two notes an equivalence apart, whose fundamental frequencies theoretically have an exact ratio, are tuned slightly closer together (a compressed or narrowed equivalence).
In 12edo
Stretched tuning is used even outside of a xenharmonic context. Most acoustic pianos have overtones which do not exactly line up with the harmonic series, so stretched octaves are usually used to compensate.
In xenharmonic music
Within a xenharmonic context, stretched or compressed tuning may be used to reduce the harmonic entropy of a scale without sacrificing its melodic shape, or to achieve other artistic goals.
Examples include (but are not limited to):