P300 amplitude and latency reflect arithmetic skill: An ERP study of the problem size effect

Danielle S. Dickson; Nicole Y.Y. Wicha

doi:10.1016/j.biopsycho.2019.107745

P300 amplitude and latency reflect arithmetic skill: An ERP study of the problem size effect

Danielle S. Dickson, Nicole Y.Y. Wicha

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

The effect of arithmetic problem size is widespread in behavior (e.g., slower responses to 8 × 7 than 2 × 2). Here, we measure event related potentials (ERPs) to determine how the problem size effect unfolds under different conditions. Adults judged the correctness of simple multiplication problems (2 × 4 = 8 versus 9) that varied in size and operand number format (written digits versus spoken number words). The P300, an ERP component associated with stimulus categorization, was measured from solution onset. P300 amplitude was greatest for small and correct solutions, as expected for easily categorized stimuli. Large incorrect solutions elicited a disproportionately reduced P300, an interaction not measurable in verification behavior. Additionally, ERP measures revealed effects of operand format preceding, but not following, solution onset. The significance of these findings for theories of mathematical cognition are addressed.

Original language	English (US)
Article number	107745
Journal	Biological Psychology
Volume	148
DOIs	https://doi.org/10.1016/j.biopsycho.2019.107745
State	Published - Nov 2019

Keywords

Arithmetic
Decision making
ERP
Numerical cognition
P300
Problem size

ASJC Scopus subject areas

General Neuroscience
Neuropsychology and Physiological Psychology

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10.1016/j.biopsycho.2019.107745

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title = "P300 amplitude and latency reflect arithmetic skill: An ERP study of the problem size effect",

abstract = "The effect of arithmetic problem size is widespread in behavior (e.g., slower responses to 8 × 7 than 2 × 2). Here, we measure event related potentials (ERPs) to determine how the problem size effect unfolds under different conditions. Adults judged the correctness of simple multiplication problems (2 × 4 = 8 versus 9) that varied in size and operand number format (written digits versus spoken number words). The P300, an ERP component associated with stimulus categorization, was measured from solution onset. P300 amplitude was greatest for small and correct solutions, as expected for easily categorized stimuli. Large incorrect solutions elicited a disproportionately reduced P300, an interaction not measurable in verification behavior. Additionally, ERP measures revealed effects of operand format preceding, but not following, solution onset. The significance of these findings for theories of mathematical cognition are addressed.",

keywords = "Arithmetic, Decision making, ERP, Numerical cognition, P300, Problem size",

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N2 - The effect of arithmetic problem size is widespread in behavior (e.g., slower responses to 8 × 7 than 2 × 2). Here, we measure event related potentials (ERPs) to determine how the problem size effect unfolds under different conditions. Adults judged the correctness of simple multiplication problems (2 × 4 = 8 versus 9) that varied in size and operand number format (written digits versus spoken number words). The P300, an ERP component associated with stimulus categorization, was measured from solution onset. P300 amplitude was greatest for small and correct solutions, as expected for easily categorized stimuli. Large incorrect solutions elicited a disproportionately reduced P300, an interaction not measurable in verification behavior. Additionally, ERP measures revealed effects of operand format preceding, but not following, solution onset. The significance of these findings for theories of mathematical cognition are addressed.

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P300 amplitude and latency reflect arithmetic skill: An ERP study of the problem size effect

Abstract

Keywords

ASJC Scopus subject areas

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