Evidence That This 100-Year-Old Practice Enhances Learning

100-year-old-practice
A practice used by education pioneer Montessori in the early 1900s has received further validation, with studies showing that finger tracing makes learning easier and more motivating. Imagining an object after tracing it can generate even faster learning, for children and adults alike.

Finger tracing has been used by teachers to help students learn for more than a century. In the early 1900s, education pioneer Montessori encouraged young children to trace over letters of the alphabet made from sandpaper with their index fingers, based on the intuition that a multi-sensory approach (i.e., visual, auditory, tactile, and kinesthetic) to learning would be most effective. In 1912, Montessori noticed that children, after mastering the sequence of tracing a letter with their index finger, “took great pleasure” in closing their eyes and trying to recall it.

Over 100 years later, her method has received some empirical validation. Two new University of Sydney studies show that not only is tracing an effective learning technique; if it is used in conjunction with imagination, its positive effect could be amplified.

Previous research demonstrated a link between tracing and math performance. Now, tracing in math and science lessons has been specifically found to reduce people’s cognitive load (the demands placed on the conscious mind by a range of cognitive activities), thereby enhancing their ability to learn. It has also been found to potentially increase their learning motivation. Once students have built a foundational understanding of a topic through tracing, asking them to close their eyes and “imagine” the steps while tracing enhances learning more than additional tracing with eyes open.

“Although Australian schools are trending upwards in terms of maths and science performance, there’s still room for improvement,” said Associate Professor Paul Ginns, the academic supervisor and co-author of the papers. “Our research shows that tracing and imagination strategies can help. They are cost-free, simple, and can be easily implemented in classrooms, across a range of lesson topics and media.”

Tracing triangles

In the first study, published in Educational Psychology Review students from a school in Shanghai, China were being taught about the properties of angles in a triangle. They were randomly assigned to the control condition, the tracing condition, or the tracing/imagination condition, and then given ‘calculate the missing angle’ examples to complete under practice and test conditions.

The control group were instructed to leave their arms by their sides. The tracing group traced the shapes, and the tracing/imagination group were instructed to trace the shape with their eyes open, then close their eyes and imagine the tracing. A mini meta-analysis combining the results of the two experiments showed that students who traced the shapes solved similar problems more quickly. Students who traced also reported lower levels of cognitive load and higher levels of intrinsic motivation during the lesson, compared to those in the control group. In some instances, tracing then imagining resulted in faster solution times for test questions than tracing alone. 

Tracing the stars

Published in Educational Technology Research and Development, the second study involved adult participants. It considered how instructions to point at and trace over elements of a lesson on the lifecycle of a star on a computer screen would help them learn.

44 people were pre-tested on their knowledge of astronomy, then during the lesson they were instructed to either ‘use their hands’ to make links between text and an associated part of the diagram or to keep their hands in their laps. The first group reported lower cognitive load and higher interest and enjoyment of the lesson. Importantly, when tested on what they’d learned, students who used their hands while studying not only remembered more basic facts from the lesson but were also able to transfer that understanding to solve problems not directly covered in the lesson.

Why tracing works

“There are multiple reasons why tracing can help learning,” Associate Professor Ginns said. “It seems that humans are biologically wired so that we pay closer attention to the space near our hands. So, when using an index finger to trace visual stimuli, these elements of a lesson receive processing priority. Tracing can also assist learning because it “chunks” all the important elements of new material into one piece of information, making it easier for us to learn.”


StepUp Note

Neuroscience research consistently shows us how the neural networks between the muscles of speech and the muscles of the hands work together to help us learn and remember. Neuroscience research also demonstrates how our brains turn movement practice (ANY muscle movement practice) into muscle memory, or fluency. This research on tracing shows how the educational research supports the neuroscience research on the importance of neural networks in learning. The muscle memory that we develop when we practice speaking, reading aloud, and writing by hand enables us to turn the skill of reading decoding into the tool of fluent reading comprehension. The NeuroNet Listen, Talk and Write program explicitly strengthens the neural network that links listening, talking and writing in a neural network that supports fluent reading decoding and reading comprehension. StepUp's cloud-based programs enrich any PreK - Grade 2 curriculum. Try it free for 30 days!

 

 

Note by Nancy W Rowe, M.S., CCC/A

Reposted from University of Sydney