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The beat goes on: the geometry that makes music pleasing

Published: 20 February 2012

Researchers uncover mathematical formula for rhythm听and suggest our brains may be hardwired to respond to it

Whether it鈥檚 Bach or Brubeck, a new study shows that composers repeat rhythmic patterns in their works in such a way that the part is a copy of the larger whole. A research team led by neuroscientists Drs. Daniel Levitin and Vinod Menon, from 海角社区 and Stanford Universities, respectively, analyzed the scores of close to 2,000 musical compositions written by more than 40 composers over the last 400 years in a large variety of Western musical genres.

They discovered a mathematical formula governing the rhythmic patterns to which every single piece of music conformed. 鈥淥ne of the things that we鈥檝e known about music for a couple of decades is that the distribution of pitches and loudness in music follow predictable mathematical patterns,鈥 says Levitin. 鈥淩hythm is even more fundamental to our enjoyment of music: it鈥檚 rhythm that infants respond to first, it鈥檚 rhythm that makes you want to get out of your chair and move, and so it鈥檚 not really a surprise to discover that rhythm, too, is governed by a similar mathematical formula.鈥

The researchers found that all the musical compositions they studied shared the same "fractal" quality, where the part is a more limited repetition of the whole. That is the larger temporal structure of well-formed musical pieces is composed of repeating motifs of their own short-term temporal structure. 听At the same time, researchers also discovered that each composer had his or her own highly individual rhythmic signature. 鈥淭his was one of the most unanticipated and exciting findings of our research,鈥 asserts Levitin. 鈥淢ozart's notated rhythms were the least predictable, Beethoven's were the most, and Monteverdi and Joplin had nearly identical, overlapping rhythm distributions. But they each have their own distinctive rhythmic signature that you can capture. Our findings also suggest that rhythm may play an even greater role than pitch in conveying a composer鈥檚 distinctive style.鈥

From snowflakes to fern fronds and broccoli florets, fractal patterns are to be found throughout the natural world. The discovery that four centuries of musical compositions obey this same mathematical rule strongly suggests that composers鈥 own brains may have incorporated certain regularities of the physical world, to recreate self-similarity in works of musical art. Indeed, the authors suggest, building on work begun in the 1970s that our sensory and motor systems may have a fundamental propensity to both perceive and produce fractal patterns not just across the three dimensions of space, but also across time.

For Levitin, whose undergraduate supervisor persuaded him to do a PhD in psychology rather than mathematics by telling him he would be able to do math while studying psychology, but not reverse, the study provides a perfect balance between his two interests.

The research was funded by: Natural Sciences and Engineering Research Council of Canada (NSERC), the Canada Foundation for Innovation (CFI) and the National Science Foundation (NSF).

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