"Executive Function in Learning Mathematics by Comparison: Incorporating Everyday Classrooms into the Science of Learning"

PhD alumnus Kreshnik Begolli has published with Associate Professor Susanne Jaeggi and colleagues in Thinking & Reasoning: "Executive Function in Learning Mathematics by Comparison: Incorporating Everyday Classrooms into the Science of Learning."

Abstract

Individual differences in executive functions (EFs) are well established to be related to mathematics achievement, yet the mechanisms by which this occurs are not well understood. Comparing representations (problems, solutions, concepts) is central to mathematical thinking, and relational reasoning is known to rely upon EF resources. The current manuscript explored whether individual differences in EF predicted learning from a conceptually demanding mathematics lesson requiring relational reasoning. Analyses revealed that variations in EF predicted learning when measured at a delay. Thus, EF capacity may impact students’ overall mathematics achievement by constraining their resources available to learn from cognitively demanding reasoning opportunities in lessons. To assess the ecological validity of this interpretation, we report follow-up interviews with mathematics teachers who raised similar concerns that cognitively demanding activities such as comparing multiple representations in mathematics may differentially benefit their high versus struggling learners. Broader implications for ensuring that all students have access to, and benefit from, conceptually rich mathematics lessons are discussed. We also highlight the utility of integrating methods in science of learning (SL) research.

Begolli, K. N., Richland, L. E., Jaeggi, S. M., Lyons, E. M., Klostermann, E. C., & Matlen, B. J. (2018). Executive function in learning mathematics by comparison: incorporating everyday classrooms into the science of learning. Thinking & Reasoning, 24(2), 1-34. 
https://doi.org/10.1080/13546783.2018.1429306