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Many aspects of language and musical melodies are processed by the same brain areas. In 2006, Brown, Martinez and Parsons found that listening to a melody or a sentence resulted in activation of many of the same areas including the primary motor cortex , the supplementary motor area , the Brocas area, anterior insula, the primary audio cortex ...
The first two, the "dependency locality theory" and the "expectancy theory" refer to syntactic processing in language, whereas the third one, the "tonal pitch space theory", relates to the syntactic processing in music. The language theories contribute to the concept that in order to conceive the structure of a sentence, resources are consumed.
Her interdisciplinary research touches music psychology, music theory and cognitive neuroscience of music. Krumhansl's precise mathematical modeling of tonal and rhythmic musical dimensions has been extended in current models of music perception, memory and performance, most notably by her former students Jamshed Bharucha , Michael Hove ...
Music is able to access many different brain functions that play an integral role in other higher brain functions such as motor control, memory, language, reading and emotion. Research has shown that music can be used as an alternative method to access these functions that may be unavailable through non-musical stimulus due to a disorder.
The neuroscience of music is the scientific study of brain-based mechanisms involved in the cognitive processes underlying music. These behaviours include music listening, performing, composing, reading, writing, and ancillary activities. It also is increasingly concerned with the brain basis for musical aesthetics and musical
The psychology of music can shed light on non-psychological aspects of musicology and musical practice. For example, it contributes to music theory through investigations of the perception and computational modelling of musical structures such as melody, harmony, tonality, rhythm, meter, and form.
The World in Six Songs: How the Musical Brain Created Human Nature is a popular science book written by the McGill University neuroscientist Daniel J. Levitin, first published by Dutton Penguin in the U.S. and Canada in 2008. It was updated and released in paperback by Plume in 2009 and translated into six languages.
From a background in evolutionary biology, his work includes empirical research, theoretical studies, brain imaging techniques, and acoustical analysis applied to areas such as cognitive musicology (how humans process music), parallel relationships between music and language, and evolutionary musicology (cross-species comparisons). [2]