Gesturing Gives Children New Ideas About
Math by Susan Goldin-Meadow et al
Summary
The authors investigated
how gesturing supports children’s learning of mathematical equivalence,
moving beyond the question of whether it helps. They worked with 128 third- and
fourth-grade students who initially showed no understanding of equivalence
problems and assigned them to three conditions: no gesture, correct gesture,
and partially correct gesture. All children learned the same verbal strategy,
but only the gesture groups produced hand movements—either accurately
highlighting the correct numbers to group or pointing to an incorrect pair.
After a gesture‑training
phase, all students received the same gesture-free lesson and completed a post-test.
Children who produced correct gestures learned the most, those who produced
partially correct gestures showed moderate gains, and those who did not gesture
improved the least. Crucially, a mediation analysis showed that gesturing
helped children by prompting them to add the grouping strategy to their
speech, even though grouping was never taught verbally. This demonstrates
that children extracted new ideas from their own movements.
The study concludes
that gestures are not just attention cues or memory aids—they are cognitive
tools that help children construct new mathematical insights, illustrating the
generative role of the body in learning.
Stop 1
Quote: “These studies suggest
that gesturing can play a role in memory and learning, but they do not specify
a mechanism” page 267.
Explanation: As I reflected on the
quote, a powerful memory emerged from my experience writing the EDUC 500
proposal. In that proposal, I argued that gestures, as dynamic semiotic
resources, play a crucial role in fostering mathematical flexibility,
particularly when they are integrated with speech, artifacts, and technology.
However, my instructor posed a thought-provoking question that has lingered
with me: Was my proposal focused solely on gestures, or did I consider how
gestures interact with other semiotic tools? This inquiry prompted me to delve
deeper into the ways gestures contribute to meaning-making in mathematics.
Revisiting this topic
after reading the article sparked a renewed reflection. The article emphasizes
that while children may learn effectively by mimicking their teacher’s
gestures, they can also gain insights by creating their own gestures. This
revelation led me to reconsider my earlier question: What is the true role of
gestures in helping students grasp and adapt to mathematical concepts? The
findings indicate that gestures do not function in isolation; they derive meaning
from their context, particularly when accompanied by speech or other
representations. This understanding clarified why my instructor challenged my
proposal, reinforcing the idea that gestures are integral to a broader semiotic
system. It deepened my appreciation for the interplay between gestures, speech,
and other tools in facilitating mathematical thinking.
Stop 2
Quote: “Children who produce
gestures modeled by the teacher are more likely to profit from the lesson than
children who do not produce the gestures. “Page 267
Explanation: Research indicates that when students learn exclusively through verbal
communication, as in a typical lecture format, their retention rates are
generally low. In contrast, incorporating visual elements—such as the teacher's
gestures—alongside practical exercises enhances their learning experience. This
approach allows students to mentally integrate information more effectively by
combining auditory and kinesthetic learning styles. Gestures provide a tangible,
visual link to concepts, which helps reinforce memory retention.
Question
How can we effectively balance the
intentional planning of gestures as semiotic resources in our teaching with
allowing them to flow naturally during lessons, and how might this balance
impact our effectiveness in the classroom?
Hi Clementina,
ReplyDeleteThe article's connection to your experience with the EDUC 500 proposal was really great and, as was your reflection on gestures as part of a broader semiotic system instead of as separate tools. The idea that children can generate new mathematical understanding from their own gestures stood out to me as well. It supports the argument that gestures are not merely memory aids but active contributors to thinking. I think both kinds of gestures, the intentional and the natural, are necessary in the classroom. My experience is that if certain gestures are planned in advance—for instance, grouping or equivalence—students would find it easier to comprehend the abstract concept. However, allowing gestures to occur spontaneously during the explanations and discussions gives the teacher the opportunity to interact with the students’ thinking in real time. The instruction can thus be both structured and flexible. I also agree with your view that gestures are most powerful when used alongside speech and other representations. When students are given the freedom to create their own gestures, they seem more active, more likely to internalize the new strategies, and thus the whole process proceeds more quickly. To sum up, I think being aware of gestures as semiotic resources, without over-controlling them, can improve both students' understanding and classroom effectiveness.
Hi Clementina,
ReplyDeleteThank you for the summary of the article and your thoughtful discussion question. Your question really highlights the dilemma of teachers - wanting to support students and provide the resources we think they need to succeed, versus giving them the time and space to work through challenging material to develop their own resources (such as gestures) to not only succeed at grasping the material, but further develop their higher-order thinking skills to think critically for themselves. I believe early on in a lesson or unit, in which new concepts are just being introduced, intentionally exposing students to gestures can be beneficial as it provides them with a universal resource to use throughout the topic. Then, as students progress through that unit, become more comfortable with the basics and are introduced to more challenging ideas, allowing them to produce their own gestures may help them develop more confidence in the topic while also having the previous resources to guide their learning. Using formative assessments through observations and conversations with students, teachers can then decide if it would be appropriate to introduce more intentional gestures to further guide student learning.