Block play could improve your child’s math skills, executive functioning

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Semi-structured block play among preschool-age children has the potential to improve two skills – mathematics and executive functioning – critical to kindergarten readiness, according a new study by Purdue University  researchers.

“As an early childhood expert, I feel like I’m constantly being asked by parents and teachers, ‘What can I do with my child to support their school readiness skills?’” said Sara Schmitt, an assistant professor in the Department of Human Development and Family Studies.

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“What I find myself saying a lot, among other things, is block play. But there’s actually not a lot of empirical evidence to support this statement, particularly with regard to mathematics and executive functioning development. That’s why I wanted to do this study: I wanted to understand if these suggestions I was making to parents and teachers were actually valid.”

The study, which has been published online in Early Childhood Research Quarterly, found that a semi-structured block play intervention improved math skills, such as numeracy, shape recognition and mathematical language, and two indicators of executive functioning, including cognitive flexibility and global executive functioning. Executive functioning is the ability to pay attention, remember and use environmental input, and inhibit natural responses in favor of more adaptive ones.

block_play_improves_mathChildren of parents with low educational attainment benefited the most from intervention participation, according to the findings, suggesting block play could be most impactful on students with lower socioeconomic backgrounds.

“Blocks are ubiquitous in early childhood classrooms and at home, and generally, adults feel comfortable with them. Our study suggests that playing with blocks in a semi-structured format may improve these important skills, ” Schmitt said. “We could be onto something that could have a lot of impact, especially for children in families with a lower socioeconomic status, at little cost and with little training.”

Children from 3 to 5 years old assigned to the intervention group participated in 14 small group play sessions lasting 15 to 20 minutes. Students were given sets of wooden blocks varying in shapes and sizes and were provided short prompts prior to each session, which became progressively more difficult.

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“We started very simple and then, by the end, we were asking them to do very complex things,” Schmitt said. “For example, in the first session, we asked the children to build a tower.

By the end of the intervention we asked them to replicate pictures of complex structures we had built previously. We think these prompts helped children to engage with mathematical concepts and also practice their executive function skills more so than they would have without the prompts. ”

Two to three 20- to 30-minute assessments, which were administered in aquiet space before and after the series of interventions, revealed a pattern of growth among children who participated in semi-structured block play.

“It’s not just block play, it is intentionally using block play to facilitate the development of these skills,” Schmitt said. “The takeaway is not just putting the child in front of a set of blocks and walking away, or having blocks be available during free play. It’s giving a little bit of structure and a goal for the child, which I think really elicits these skills.”

NeuroNet Learning

Building together — anything from block towers to pillow forts — helps children with spatial language, or language that defines visual space. Once a child becomes school age, they need to use spatial language in order to follow directions quickly and accurately. Phrases like “on the top of the green block, behind the blue block” are very important for young children who are learning about their visual space world and how to follow directions. While playing, try leading with a question, like “what block do you want to put on top? Can you build a tower as high as your nose?” 

The NeuroNet approach to learning combines movement, rhythm, and repetition with an early learning curriculum. NeuroNet improves coordination of cognitive and motor skills in an educational environment that encourages self-evaluation and trial and error problem solving. Click here to learn more about our programs for Home or School.

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Article reposted with permission from Purdue University.

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