Why we do move when we hear good music? Researchers at McMaster University have found that tapping to the beat measurably enriches the listening experience, broadening our capacity to understand timing and rhythm.
The research, recently presented at the Acoustics Week in Canada conference in Quebec City, probes the complex relationship between perception and action.
“We set out to answer a simple question: Can moving to the beat actually help us understand the music?” says Michael Schutz, an assistant professor of music in the School of the Arts at McMaster, who designed and conducted the study. “We found that tapping along while listening does more than help us feel and enjoy the music. It actually helps us hear it better.”
Participants in this study heard a series of regular beats and were asked whether the final beat was consistent with the preceding rhythm. They then rated their confidence to each response. On half of the trials subjects were asked to tap along on an electronic drum pad; on the other half they listened without tapping.
When the experimenters played the final tone after participants would have expected the beat, listeners performed 87 per cent better at detecting the change when tapping versus listening passively. The tapping had little effect on performance when researchers played the tone early or on time.
These findings have implications for listeners, performers, and music educators alike, says Schutz.
“From a young age, we teach students to move to the music while performing, and now we know at least one reason why this is beneficial,” he explains. “This study sheds light on why moving while playing helps musicians keep time and improves their overall performance.”
Schutz and his team also found that participants who tapped to the beat felt more confident in their responses compared to those who did not tap.
“Not only does moving to the beat help us keep track of the rhythm, it increases listeners’ confidence in their understanding of the music’s structure, whether or not participants actually performed better,” says Fiona Manning, a graduate student working on the project.
The research was funded by the Natural Sciences and Engineering Research Council (NSERC) of Canada and the Faculty of Humanities.
McMaster University, one of four Canadian universities listed among the Top 100 universities in the world, is renowned for its innovation in both learning and discovery. It has a student population of 23,000, and more than 150,000 alumni in 128 countries.