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WHAT WORKS IN EDUCATION The George Lucas Educational Foundation
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How do people learn? Research has found that it is our learning process, not our intelligence, that is the most important factor in determining our abilities -- making it vitally important to examine how we teach our students. So we must ask: how are we most effective at learning and retaining information? Is it when we are hearing, seeing, doing, creating, or some combination of the above? Recently, multi-disciplinary learning has become the trend in education, allowing students to make connections between seemingly disparate subjects. Kinesthetic learning takes this model to the next level by connecting the different ways in which we learn, and this process enables a more effective understanding and retention of information.

In kinesthetic learning, movement and action replace more passive forms of learning, such as listening to a lecture. Everybody has probably experienced the effectiveness of this style of learning. No matter how many years it has been since you learned, most people can still ride a bike and swim across a pool. I am able to play piano pieces that I once knew, and I remember the moves to dances I performed when I hear the music. Yet I can no longer recite the capitols of all the states or the elements in the periodic table -- all information that I had memorized. No matter how much we memorize, recite, and study, our muscle memory seems to trump our brains alone. We learn best when we combine mind and body. So let's use our bodies to their fullest advantage and bring kinesthetic learning into our classrooms.

Math and Movement

Kinesthetic learning is founded on creativity, which makes math a natural pairing. There is a widespread misconception that STEM fields stifle creativity. But math also requires creativity and a willingness to approach a problem from multiple angles. In fact, STEM fields are about creative problem solving, not rote memorization. Certainly, math requires rigor and discipline to master. But so do dance, sports, or writing a paper.

Because movement allows a student an alternative approach to the information, it can help put students in the receptive state required for learning. This breaching of mental barriers is especially significant for young women, who are more likely to self-limit their abilities because of the social stigma associated with mathematics and STEM fields. STEM is increasingly shaping our future, and kinesthetic learning can help encourage students to pursue STEM.

Creating Confidence

Two years ago, I created an after-school program, SHINE for Girls, that utilizes kinesthetic learning by combining math with dance. The unique curriculum focuses on building both mathematical facility and self-confidence in young girls, and has been recognized by CBS Evening News, FOX 25, and The Boston Globe for its work in equalizing the gender gap in STEM fields. It is targeted to a middle school audience, an age at which studies have proven that girls lose interest in STEM. Kinesthetic learning has seen incredible results -- the girls showed a 273 percent improvement in math scores and a 110 percent improvement in confidence as measured by pre- and post-tests. Success is due to a combination of factors:

1. Turning the "I Can't" Around

Using kinesthetic learning, girls are able to learn math in an environment when their mental barriers are not up. For example, algebra can be introduced through choreography. Girls can create a simple dance of three twirls followed by a jump, and will write it down as: "3x+y where x = twirl, y = jump." Through dancing, girls realize that 3(x+y) = 3x + y + 2y. Before they can say, "I can't do algebra," they already have. This begins the positive feedback loop of girls believing in themselves, and their confidence stems from knowing that they have the ability to succeed.

2. Team-Based Problem Solving

We believe that students shouldn't know the answer to questions before they are asked, and we deliberately give them hard questions that they have to solve together in teams. Realizing that they are up to the challenge creates students who are more curious and more motivated. Throughout the program, girls began volunteering to lead solving problems on the board, and teachers reported that the girls began to raise their hands in classes. Team learning and cheering each other on is a large part of the supportive environment we seek to create.

3. Learning Without Boxes

An important part of the way we teach is by encouraging each girl to be who she wants to be, without regard for previously conceived notions of who she is or what is cool. By showing students that they can succeed in a subject they were struggling with, kinesthetic learning is able to transcend the boundaries of what kids think they like. Having the mentors as women pursuing STEM fields provides the younger generation with role models.

Changing the Story

We can combine action and intellect to revolutionize learning. Our education system should be a beacon of creativity that encourages curiosity. Let's not fall behind, but instead leap forward with education that allows kids to confidently throw both their minds and bodies into learning.

What are your experiences with kinesthetic learning? Please tell us about it in the comments section.

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Todd Sentell's picture
Todd Sentell
Author of the hilarious schoolhouse memoir, "Can't Wait to Get There. Can't Wait to Leave"


One of the schools where I subbed and taught longer sessions for sick or infant-nursing teachers asked me if I'd help coach the girl's soccer team. Naively, I said what the heck.

It was a sudden shock to learn that most of the sixth, seventh, and eighth grade girls on the team had never played organized soccer before. They were cute and all in their new cleats and bubbly, pre-season attitudes, but I also found out, very quickly, such as in the first seconds of our first practice, that most of the girls had never experienced someone raising their voice at them. Running laps and sprints was new to them, too. Someone blowing a whistle real loudly in their vicinity freaked them out. Someone pretty much telling them what to do and exactly when to do it was extremely unnerving to most of them. Their eye rolling and bickering and questioning and whining and mood swinging and complaining was brain melting--for four afternoons a week for two and a half months.

But the head coach and I never stopped blowing our whistles and raising our voices and telling them how to play and practice the character-building game of middle school girl's soccer.

We got through the season without too many tears...mine and theirs...and finished second in our school's sports league. I was proud of them. But I have to admit: after the last game of the year, before I started for home, I sat in my truck, and while breathing a sigh of relief that would have filled the Goodyear blimp, I questioned--out loud--my existence on Earth.


Todd's teaching memoir, "Can't Wait to Get There. Can't Wait to Leave," at corkscrew turns hilarious, heartwarming, and sometimes heartbreaking, will be published this fall by Stairway Press.

KC's picture

Great ideas, but "3(x+y) = 3x + y + 2y" in number one?

Kirin Sinha's picture
Kirin Sinha
Founder of SHINE for Girls

Yes: by the distributive property 3(x+y) = 3x + 3y and by combining like terms we have 3x + y + 2y = 3x+3y.

KC's picture

Yes, but it looks odd that way without also showing 3x + 3y. I wasn't sure if you intended it that or not.

Kirin Sinha's picture
Kirin Sinha
Founder of SHINE for Girls

When it is danced out, it becomes clear really quickly that 3x + y + 2y = 3x + 3y, and from there girls are able to make the connection that 3(x+y) = 3x + 3y. This was just a short example. When it is actually done in class we explore all kinds of expressions and would likely compare this to 3x + y and x + 3y when danced out to make the concept clear.

NLaymn4's picture

Great ideas. I would love to share this with the classroom teachers at our school. As a PE teacher I would love for teachers to see the importance of what we do and how active students will help improve participation, tests scores, and behavior in the classroom. I could also see getting the math department and/or science department to work with PE in teaching concepts.

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