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User:Nick Vuci/Moments of Symmetry

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Revision as of 04:45, 28 May 2025 by Nick Vuci (talk | contribs) (Step Ratios)
WORK-IN-PROGRESS AS OF 27 MAY 2025

Moments of Symmetry (MOS) are scales created by a simple procedure that generates the common pentatonic and diatonic scales, but also a wide range of novel xenharmonic scales that share the same melodic coherence and structural balance. First described by Erv Wilson in the 1970's, the concept shares fundamental similarities and is often thought of as synonymous with the concept of Well-Formed scales, as well as the more generalized concept of MV2 scales. Over time, MOS has become a central tool in xenharmonic theory, inspiring a wide range of musical uses, analytical approaches, and derivative concepts such as MODMOS, multi-MOS, and MOS-based rhythm.

Construction

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    An interval is chosen to be the period (the 1200 cent octave in this example). The period is represented with a circle; intervals are represented with purple lines and points radiating out from the middle which move clockwise.
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    An interval is chosen to be a generator (the 700 cent perfect fifth in this example). This is the 1L 2s MOS pattern.
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    Stacking the generator upon itself yields a scale with 2 step sizes. This is the 2L 1s MOS pattern.
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    Stacking the generator 2 times yields a scale with 3 step sizes (not MOS).
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    Stacking the generator 3 times yields a scale with 2 step sizes. This is the 2L 3s MOS pattern.
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    Stacking the generator five times yields a scale with three step sizes (not MOS).
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    Stacking the generator 6 times yields a scale with 2 step sizes. This is the 5L 2s MOS pattern.

Step Ratios

The step ratio (also simply called the hardness) of MOS denote the relative sizes of the large and small steps and is an important factor for classifying MOS patterns. The step ratio of 2:1 — which means that the large steps are double the size of the small steps — is called the basic form of the MOS. When the difference between the large and small steps increases (i.e., the large step becomes larger and the small step smaller) the MOS is considered harder, as the contrast in size is more pronounced. Conversely, when the size difference decreases (meaning the large step becomes smaller and the small step larger) the MOS is considered softer, due to the subtler contrast.

To find the equal tuning of some hardness of an MOS, simply input the relative size of the steps and multiply them by the number of steps. For example if we want to find the tuning which contains the 5L 2s pattern with the hardness of 2:1, we simply calculate 5(2)+2(1)=12, showing us that 12-EDO contains it.

For a more thorough discussion on the spectrum of step ratios, please see TAMNAMS.

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    When the L:s ratio is 3:1, the MOS is hard. The hard 5L 2s is supported by 17-EDO.
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    When the L:s ratio is 2:1, the MOS is basic. The basic 5L 2s is supported by 12-EDO.
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    When the L:s ratio is 3:2, the MOS is soft. The soft 5L 2s is supported by 19-EDO..

Spectrum of MOS

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