Brain-Based Learning

Building a Metacognitive Classroom

Teaching students about neuroplasticity and the brain’s potential can have a positive effect on their self-perceptions and expectations for success in school.

February 21, 2018

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Teaching students basic knowledge about the brain’s potential can have a positive impact on their motivation, grit, and achievement. In particular, explicitly teaching them that learning changes the structure and function of their brains can be transformational in building a stronger belief in the value of working hard to master new material.

Teachers who explain these findings report that the knowledge has a positive effect on students’ perceptions of their abilities as well as on their expectations for success.

Examples From Elementary Classrooms

Diane Dahl of Texas, a participant in our brain-based teaching program, enjoys teaching her elementary students about the brain and strategies for learning. Students learn what neurons, dendrites, and axons are and how connections between neurons created by axons and dendrites create learning. Dahl emphasizes that each child has an amazing, unique brain and that through their practice and effort, all students will learn and remember a lot during the year. (Marcus discusses these brain basics and classroom implications in a short video.)

Next, Dahl tells her students that when we learn, it’s important to connect new information with something we already know. She gives a couple of examples and then tells students they’ll be using pipe cleaners and sticky notes to make a model of a brain and what they are thinking and learning.

Student project illustrating a brain's structure using index cards and pipecleaners
©Donna Wilson and Marcus Conyers
A class brain built by students reminds them of all that they’re learning.

Students each get three pipe cleaners to twist together in the middle to represent the axon, leaving both ends untwisted to represent dendrites. They then work together to build the representational brain structure, connecting all the axons by twisting a dendrite from one neuron around the axon of another, with guidance from the teacher. The structure represents the class’s brain at the beginning of the school year. Throughout the school year, students create and add new axons to the brain, labeled with sticky notes describing new concepts they have learned.

In her own words, here are Dahl’s tips for success:

Some elementary teachers have students create their own individual models of a neuron that they can keep at their desk or take home as a reminder of their vast learning potential.

Examples From Secondary Classrooms

We know from discussions with secondary teachers that their students are motivated to learn when they are taught that their brains change as they learn and that they can get functionally smarter.

To teach this concept, teachers can draw a diagram of a neuron on the whiteboard to illustrate how synapses fire and form connections to other neurons in response to new experiences and learning.

Georgia teacher Jeremy Green, another participant in our program, frames the need to be metacognitive about one’s learning by launching his AP psychology and U.S. history courses with a presentation on neuroplasticity, emphasizing that our brains can change and that we’re always getting smarter as long as we are learning.

Green explains that he and his students talk about neuroplasticity early in the school year, discussing the idea that they’re not just what they are at present—that hard work plus the use of proven learning strategies will affect their academic success.

Another high school teacher, Michael Fitzgerald, says, “There are things in life you’re not in charge of, but you are in charge of you. When you accept that, your brain changes. And every time your brain changes, you grow.” The Idaho teacher adds that this can be very empowering to students, explaining, “It also challenges them to take charge of their learning.”

He incorporates into his teaching the ideas that learning changes the brain and that students can become progressively functionally smarter by thinking about their thinking with the goal of improving how they learn. These concepts are new to many of his students and pave the way for cognitive and metacognitive strategies that Fitzgerald explicitly introduces and models as a way for them to succeed at school.

More on these examples and a host of other related topics can be found in our book Teaching Students to Drive Their Brains, published with ASCD.

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