Shortly after, the drums really kick in, and Curtis's saxophone takes off. The listener is helpless.
Movement -- and the joy that comes with it -- is almost inevitable. The desire to move to music has been well studied already, including by one of Matthews's co-authors, Maria Witek, now at the University of Birmingham. Witek's research looks at syncopation -- the de-emphasis of a strong beat in rhythm -- and the effect it has on listeners.
Her study shows that listeners enjoy a medium level of syncopation: too little syncopation is boring, like listening to a metronome.
Too much, however, is difficult to follow. Listener preferences could be charted on what is known as an "inverted U curve. Matthews's study takes the same approach and applies it to harmony, the effect of several notes being played at once, like a chord on a guitar or piano.
So if we combine medium syncopation rhythms, which are considered the grooviest, with medium harmonies, maybe that will push the peak of the inverted U curve higher. If we find a sweet spot for rhythm and harmony combined, that will interact and boost this effect even higher than with just rhythm alone. Matthews and his colleagues set up an online survey and eventually recruited around people, mainly from Europe and North America.
There were no restrictions on who could participate, and there was a massive range of age and musical ability among those who did.
The researchers also asked about the participants' interest in groove music, how often they listen to it and how often and how much they enjoy dancing, on a scale of one to five. Participants were played short musical sequences with three different levels of rhythmic and harmonic complexity low, medium and high.
The sequences, written by Matthews and his co-authors, used son and rumba claves, similar to those often found in Afro-Cuban music. The participants rated the sequences on how much they made them want to move and how much pleasure they experienced listening to them. The researchers found that listeners rated music with medium syncopation and simple and medium harmony complexity the highest.
Since both low- and medium-complexity harmonies are considered pleasant, Matthews says that pleasant harmonies boosted the inverted U effect of rhythm. Groove is a combination of pleasure and wanting to move, and harmony's main effect is on the pleasurable aspect of groove," he notes. Matthews believes that those who enjoy dancing have a stronger association between groove music and movement. Materials provided by Concordia University. Original written by Patrick Lejtenyi. Note: Content may be edited for style and length. There is no "science" in this book, no "techniques" or "how to's.
There are also lots of musings on what it's like to be DJ Spooky. In this book, you will learn something about where he comes from, and something about the elements that have shaped him as a multifarious artist. So, what is "rhythm science? Here goes.scheddowntetupas.ml
Dance Music Production | Rhythm Science Sound | Louisville
Rhythm science is a forensic investigation of sound as a vector of a coded language that goes from the physical to the informational and back again. Rhythm science. Rhyme time. Rough trade. Sound" pp. Imagery, whether presented on canvas or seen as a series of repeated photographic, cinematic, televisual, or digitized stills has a way of evoking a 'kinedramatic' imaginal response. The simultaneity of such a variety of source materials and media distinguishes digital composition from its analog predecessors, not to mention the actual physical 'dematerialization.
Any sound can be you. It's an emotion of abstraction and attention deficit disorder.
A groove is better with rhythm and harmony, new research shows
Mix culture, with its emphasis on exchange and nomadism, serves as a precedent for the hypertextual conceits that later arrived from the Access options available:. Project MUSE promotes the creation and dissemination of essential humanities and social science resources through collaboration with libraries, publishers, and scholars worldwide. Forged from a partnership between a university press and a library, Project MUSE is a trusted part of the academic and scholarly community it serves. Built on the Johns Hopkins University Campus.
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