Shi'er lü

Shi'er lü on C. Play^ⓘ

Shi'er lü (Chinese: 十二律; pinyin: shí'èr lǜ; lit. '12 pitches'; Mandarin pronunciation: [ʂɻ̩˧˥ aɚ˥˧ ly˥˩]) is a standardized gamut of twelve notes used in ancient Chinese music.^[1] It is also known, rather misleadingly, as the Chinese chromatic scale; it was only one kind of chromatic scale used in ancient Chinese music. The shi'er lü uses the same intervals as the Pythagorean scale, based on 3:2 ratios (8:9, 16:27, 64:81, etc.). The gamut or its subsets were used for tuning and are preserved in bells and pipes.^[2]

Unlike the Western chromatic scale, the shi'er lü was not used as a scale in its own right; it is rather a set of fundamental notes on which other scales were constructed.^[3]

The first reference to "standardization of bells and pitch" dates back to around 600 BCE, while the first description of the generation of pitches dates back to around 240 CE.^[3]

Note names

• 黃鐘 (黄钟) - Huáng Zhōng - tonic/unison - 1 : 1 - Play^ⓘ
• 大呂 (大吕) - Dà Lǚ - semitone - 3⁷ : 2¹¹ - Play^ⓘ
• 太簇 - Tài Cù - major second - 3² : 2³ - Play^ⓘ
• 夾鐘 (夹钟) - Jiá Zhōng - minor third - 3⁹ : 2¹⁴ - Play^ⓘ
• 姑洗 - Gū Xǐ - major third - 3⁴ : 2⁶ - Play^ⓘ
• 仲呂 (中吕) - Zhòng Lǚ - perfect fourth - 3¹¹ : 2¹⁷ - Play^ⓘ
• 蕤賓 (蕤宾) - Ruí Bīn - tritone - 3⁶ : 2⁹ - Play^ⓘ
• 林鐘 (林钟) - Lín Zhōng - perfect fifth - 3 : 2 - Play^ⓘ
• 夷則 (夷则) - Yí Zé - minor sixth - 3⁸ : 2¹² - Play^ⓘ
• 南呂 (南吕) - Nán Lǚ - major sixth - 3³ : 2⁴ - Play^ⓘ
• 無射 (无射) - Wú Yì - minor seventh - 3¹⁰ : 2¹⁵ - Play^ⓘ
• 應鐘 (应钟) - Yìng Zhōng - major seventh - 3⁵ : 2⁷ - Play^ⓘ

There were 12 notes in total, which fall within the scope of one octave. Note that the mathematical method used by the ancient Chinese could never produce a true octave, as the next higher frequency in the series of frequencies produced by the Chinese system would be higher than 880 hertz.

How the scales are produced. Start with a fundamental frequency. (440 hertz is used here.) Apply the ratios to make the first column. Copy the second and all further elements in this column to the respective heads of the other eleven columns. Apply the ratios to make the second through the twelfth columns. So doing produces 144 frequencies (with some duplications). From each column five different selections of non-adjacent frequencies can be made that never jump more than three available notes, and never jump two twice in a row. (See the colored blocks at the far left.) So each column can produce five different pentatonic scales, and with all the columns involved there are 60 pentatonic scales available to musicians.

A comparative table of Eastern and Western notes of chromatic scale, from a book published in Kyoto in 1909. This table shows that the pitch of the first note Huang Zhong (黃鐘; huáng zhōng) is equivalent to D in Western classical music, while it was A in Ming era.

See the article by Chen Ying-shi.^[4]

See also

• Chinese musicology

Further reading

• Reinisch, Richard (?). Chinesische Klassische Musik, p. 30. Books On Demand. ISBN 978-3-8423-4502-7.

Sources

1. Joseph C.Y. Chen (1996). Early Chinese Work in Natural Science: A Re-examination of the Physics of Motion, Acoustics, Astronomy and Scientific Thoughts, p. 96. ISBN 962-209-385-X.
2. Chen (1996), p.97.
3. Needham, Joseph (1962/2004). Science and Civilization in China, Vol. IV: Physics and Physical Technology, p.170-171. ISBN 978-0-521-05802-5.
4. 一种体系 两个系统 by 陈应时 (Yi zhong ti-xi, liang ge xi-tong by Chen Ying-shi of the Shanghai Conservatory), Musicology in China, 2002, Issue 4, 中国音乐学，2002，第四 期

External links

• Graham Pont. "Philosophy and Science of Music in Ancient Greece: The Predecessors of Pythagoras and their Contribution", Nexus Network Journal.