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Direct linkKelsey J. MacKay; Filip Germeys; Wim Van Dooren; Lieven Verschaffel; Koen Luwel – Educational Studies in Mathematics, 2025
Rational numbers, such as fractions and decimals, are harder to understand than natural numbers. Moreover, individuals struggle with fractions more than with decimals. The present study sought to disentangle the extent to which two potential sources of difficulty affect secondary-school students' numerical magnitude understanding: number type…
Descriptors: Number Concepts, Numeracy, Secondary School Mathematics, Secondary School Students
Download full textNadine Koch; Johannes Lohmann; Martin V. Butz; Hans-Christoph Nuerk – Journal of Numerical Cognition, 2024
Magnitude information, for instance, regarding weight, distance, or velocity, is crucial for planning goal-directed interactions. Accordingly, magnitude information, including numerical magnitude, can affect actions: Responses to small numbers are faster with the left hand than the right and vice versa (hand-based SNARC effect). Previous…
Descriptors: Spatial Ability, Numbers, Number Concepts, Task Analysis
Mei Ma; Maxim Likhanov; Xinlin Zhou – British Journal of Educational Psychology, 2024
Background: Recent research suggested fluent processing as an explanation on why number sense contributes to simple arithmetic tasks--'Fluency hypothesis'. Aims: The current study investigates whether number sense contributes to such arithmetic tasks when other cognitive factors are controlled for (including those that mediate the link); and…
Descriptors: Mathematics Instruction, Numeracy, Arithmetic, Grade 1
