Music & Education : The Ultimate Connection

Recently passed Birthdays of Rajesh Khanna (18 July), Rajendra Kumar (20 July) and Anand Bakhshi (21 July), and today Mukesh (22July) who were some of the best-known talents of our Country, and many of us have celebrated the best era of Indian Cinema, and its unmatched Music tradition. So, in turn of it, our dedicated school music team (Yeah we’ve a music team too!) finds, if there is some connection between a great music and smart education? And, we found some great results. Read it below.

Echoing Mozart: Discovering a Link between the Brain and Music

When Gordon Shaw and Frances Rauscher published the results of their study on the relationship between music and spatial task performance in 1993, the “Mozart effect” became a popular term. It referred to the study’s findings that ten minutes of listening to Mozart can boost one’s spatial-temporal intelligence. But why Mozart? According to Marion Diamond, who describes the inception of Shaw’s hypothesis in her book, Magic Trees of the Mind, the idea began when Shaw attended a lecture on how the brain transmits neural messages. This lecture led Shaw to formulate a theory of how neural impulses are organized into patterns by the cerebral cortex. Shaw’s theory took the form of a long and complex mathematical model which for many of us, Diamond explains, “needs a major English translation into something like this: The neurons in the brain have certain natural firing patterns that act as an internal neural language. These patterns can be mapped and also altered through learning and experience.”
The connection between this mathematical model and Mozart, however circuitous and intuitive, was made, says Diamond, after a “wizard of computer music…gave the mathematic equations a ‘voice’ and a ‘face.’” And their voice seemed to echo Mozart.

The “Mozart Effect” Study

At the University of California, Irvine, Shaw (a particle physicist and researcher at the Center for the Neurobiology of Learning and Memory) and his colleague, Rauscher (currently an assistant professor at the University of Wisconsin – Oshkosh in cognitive psychology), gave a group of college students three sets of standard IQ spatial reasoning tasks. Each of these tasks was preceded by one of three ten-minute-long ‘listening’ conditions. One involved listening to a Mozart sonata for two pianos; another entailed listening to a relaxation tape; and the last consisted of sitting through ten minutes of silence. The results demonstrated that listening to Mozart gave individuals a distinct advantage in terms of spatial task performance. As Shaw noted in a 1993 Nature article, students performed better “on the abstract/spatial reasoning tests after listening to Mozart than after listening to either the relaxation tape or to nothing….”
Although the music condition significantly differed from the silence and the relaxation conditions, Shaw and his colleague were careful to qualify the study’s results. Listening to Mozart’s piano sonata in D major (K488) did, in fact, raise spatial reasoning test scores, but the effects were short-lived. Shaw made this temporary characteristic of the Mozart effect clear: “The enhancing effect of the music condition is temporal, and does not extend beyond the 10-15 minute period during which subjects were engaged in each spatial task.”
The authors cited several areas calling for further research. Could the Mozart effect be optimized by varying the amount of listening time? Could other intelligence measures such as short-term memory, verbal reasoning, and quantitative reasoning also be enhanced by listening to Mozart? What effects would other kinds of music have on IQ performance? While the answers to these questions were unclear, the authors hypothesized that repetitive music, or music lacking in complexity, would fail to enhance performance. They believed that the complexity, and perhaps the mathematical precision of Mozart’s music was responsible for its enhancing effect.
Shaw’s summative statement, that “there are correlational, historical, and anecdotal relationships between music cognition and cognitions pertaining to abstract operations such as mathematical or spatial reasoning,” was a sound and well-grounded observation. But once seized by the media, it was eventually transformed, like gossip, into a looser, less sound claim: that listening to Mozart can make one smarter. Beyond Shaw and Rauscher’s first study, several others have further examined music’s influence on the brain.

The Relationship between Music and Reading in Beginning Readers

In a 1993 issue of Educational Psychology, Lamb and Gregory of the University of Manchester’s Department of Psychology published the results of their study on the relationship between the ability to discriminate musical sounds and reading performance. “Children achieving high scores on pitch discrimination,” they concluded, “also did well on phonemic awareness and showed good reading performance.”
Lamb and Gregory did not claim that an ability to discriminate pitch differences in children actually causes improvements in reading performance. To establish this link, a longer, more involved study which tracked children’s reading progress over time, and isolated training in pitch discrimination from other musical abilities was necessary. Only once these conditions were met could an actual causal relation between musical training and reading ability be established. Given this qualification, Lamb and Gregory concluded that “The educational implication which would follow…is that carefully structured musical training should be an essential component in the primary school curriculum.”

More Studies Reveal a Link between Music Training and the Brain

I) Keyboard Lessons Enhance Spatial-Temporal Task Performance in Preschoolers

Several additional studies have explored how certain kinds of exposure to music affect the brain. Shaw and Rauscher looked at how learning to sing and to play the keyboard might influence the spatial-temporal skills of pre-school children. Twenty-two children ranging in age from three to four-and-a-half years old were given singing lessons or keyboard lessons. A control group consisting of fifteen children received no music lessons, but otherwise experienced the same preschool activities.
The results demonstrated that preschoolers who had weekly keyboard lessons improved their spatial-temporal skills 34 percent more than did those preschoolers who received computer or group singing lessons. Furthermore, the effect lasted more than a day — “long-term,” according to memory researchers.

II) Musical Training Sequenced in Difficulty Boosts Math Scores

In another study, Martin F. Gardiner and his colleagues at the Center for the Study of Human Development at Brown University found that a certain kind of musical training, the Kodaly method, which includes rhythm games and learning to sing songs progressing in specific increments toward greater difficulty, positively affects first- and second-graders’ math skills.
In her Education Week article, “Music on the Mind,” Debra Viadero summarizes the Gardiner study results: “At the end of seven months, the students getting the specialized musical training were doing the same or slightly better in reading than their counterparts in the control group. But in math they zoomed ahead of their peers — even though they had started out slightly behind.” Viadero asserts that, “Mr. Gardiner believes the boost comes in part because music aids children’s understanding of such concepts as number lines. …’Do is less than re, and re is less than mi.’ On a keyboard, the progression may be even easier to grasp.”
Though Gardiner’s studies clearly demonstrate a link between music training that is sequenced according to a progression in difficulty and the development of math skills in elementary school children, he himself is careful not to overplay music’s uniqueness in developing skills that transfer from subject to subject. Gardiner, Viadero writes, believes that other kinds of skills, besides musical ones, can probably be transferred to other disciplines.

III) Early Music Training and the Brain’s Structure

On the question of whether or not there is a window of opportunity for learning to play an instrument, several studies suggest that beginning music training early (before age seven) is correlated with greater growth in certain areas of the brain. For example, researchers in Germany identified the region of the brain responsible for perfect pitch — a part of the left hemisphere which is also involved in speech called the planum temporale. “Using MRI, the German team looked at the planum temporale in thirty nonmusicians and in thirty professional musicians, eleven with perfect pitch and nineteen without. In the musicians with perfect pitch , the planum temporale was twice as big as in either the nonmusicians or the musicians lacking perfect pitch. In this study and several others, 95 percent of musicians with perfect pitch started music lessons before age seven. According to this study, it seems that early music training is associated with more growth in this one particular brain region…. If…training starts later or is absent altogether, perfect pitch rarely shows up” (Diamond 1998).
Also using magnetic-resonance-imaging technology, Gottfried Schlaug and his colleagues at Harvard Medical School have similarly found that musicians who started studying music before age seven have regions in their brains (the corpus callosum and the right motor cortex) that are larger than the corresponding regions in both non-musicians and musicians whose training began later than age seven. As with all of the above studies, the researchers themselves are cautious not to blow their findings out of proportion. In response to questions about the implications of his study, Schlaug resists offering specific recommendations regarding when music should be taught; after all, he claims, some very skilled musicians started playing in their second and third decades.

Do We Need More Music in Schools?

In her book Magic Trees of the Mind, Marian Diamond describes music’s place in schools as an increasingly peripheral one, noting that fewer children of any age are starting music lessons today. According to the National Coalition for Music Education, one third fewer high school students are taking music classes now than fifty years ago. This drastic reduction is due, Diamond argues, to school funding cutbacks, and “flagging church attendance and interest in choirs….” In most schools music is still considered a “curricular frill,” which leaves it vulnerable to cutbacks.
Music’s tenuous place in the primary and secondary school curriculum has led many to seize on the above research findings as “proof” that music education should not be sacrificed. Still, it’s a stretch to claim that music can make a child smarter. As Viadero writes: “Researchers can’t say for sure. Compared with some other educational interventions, the studies on music learning are a thin lot; researchers are busy trying to repeat and extend their findings. Little is known, for example, about what kinds of musical training produce results and what kinds don’t, who benefits most, and how long any intellectual gains that result from music learning will last. …That has led some critics to contend that all the enthusiasm in education, media, and policymaking circles for the new music-learning research is premature.”
Rauscher, one of the researchers involved in the “Mozart effect” study, and a former concert cellist, favors expanded music education. Nevertheless, she is reluctant to say that only listening to music can permanently enhance the intellect. “One of the things we have to be careful about is jumping to conclusions that we don’t have data on at all,” Rauscher said. “I find that the ‘Mozart makes you smarter’ thing is quite a bit of a leap” (Viadero 1998).
John T Bruer, author of The Myth of The First Three Years (1999) and president of the McDonnell Foundation, an organization that supports cognitive science research, points out the gap between the two fields of neuroscience, and cognitive psychology — one which often leads to claims about child development and learning that, although not without some truth, are exaggerations (Viadero 1998).


Many educators and researchers argue that making music a more central part of the school curriculum is worthwhile in light of the promising studies on the relationship between music and intellectual growth. Furthermore, the mere fact that even tentative research findings in support of music education have struck such a positive chord with the public demonstrates that people believe on an intuitive level that there is inherent value in the teaching of music. Music training and exposure to a wide variety of music as complex as Mozart’s should be valued not just because it might raise a child’s IQ score, but because it can contribute in more intangible ways to a child’s development. Marion Diamond argues that learning to play an instrument can increase a child’s capacity for “voluntary attention,” while David Porter claims that it can teach “discipline, care, concentration, and perseverance.” In any case, it seems clear that failing to include some kind of music education in the schools would result in a great loss, if not also in intellectual deprivation.