Litcius/Paper detail

Spatialization in working memory and its relation to math anxiety

Jean‐Philippe van Dijck, Wim Fias, Krzysztof Cipora

2022Annals of the New York Academy of Sciences20 citationsDOIOpen Access PDF

Abstract

Working memory (WM) is one of the most important cognitive functions that may play a role in the relation between math anxiety (MA) and math performance. The processing efficiency theory proposes that rumination and worrisome thoughts (induced by MA) result in less available WM resources (which are needed to solve math problems). At the same time, high MA individuals have lower verbal and spatial WM capacity in general. Extending these findings, we found that MA is also linked to the spatial coding of serial order in verbal WM: subjects who organize sequences from left-to-right in verbal WM show lower levels of MA compared with those who do not spatialize. Furthermore, these spatial coders have higher verbal WM capacity, better numerical order judgment abilities, and higher math scores. These findings suggest that spatially structuring the verbal mind is a promising cognitive correlate of MA and opens new avenues for exploring causal links between elementary cognitive processes and MA.

Topics & Concepts

Working memoryCognitionPsychologyCognitive psychologyRuminationCoding (social sciences)SpatializationVerbal memoryAnxietyStructuringSpatial abilityDevelopmental psychologyMathematicsStatisticsPsychiatryNeuroscienceAnthropologyFinanceEconomicsSociologyCognitive and developmental aspects of mathematical skillsMental Health Research TopicsEducation, Achievement, and Giftedness