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Direct linkCheng, Chen; Kibbe, Melissa M. – Cognitive Science, 2023
Young children with limited knowledge of formal mathematics can intuitively perform basic arithmetic-like operations over nonsymbolic, approximate representations of quantity. However, the algorithmic rules that guide such nonsymbolic operations are not entirely clear. We asked whether nonsymbolic arithmetic operations have a function-like…
Descriptors: Young Children, Mathematics Skills, Arithmetic, Problem Solving
Braithwaite, David W.; Sprague, Lauren – Cognitive Science, 2021
When, how, and why students use conceptual knowledge during math problem solving is not well understood. We propose that when solving routine problems, students are more likely to recruit conceptual knowledge if their procedural knowledge is weak than if it is strong, and that in this context, metacognitive processes, specifically feelings of…
Descriptors: Concept Formation, Mathematical Concepts, Metacognition, Knowledge Level
Patel, Purav; Varma, Sashank – Cognitive Science, 2018
Mathematical cognition research has largely emphasized concepts that can be directly perceived or grounded in visuospatial referents. These include concrete number systems like natural numbers, integers, and rational numbers. Here, we investigate how a more abstract number system, the irrationals denoted by radical expressions like the square root…
Descriptors: Numbers, Mathematics Instruction, Number Concepts, Mathematical Formulas
Brooks, Neon B.; Barner, David; Frank, Michael; Goldin-Meadow, Susan – Cognitive Science, 2018
People frequently gesture when problem-solving, particularly on tasks that require spatial transformation. Gesture often facilitates task performance by interacting with internal mental representations, but how this process works is not well understood. We investigated this question by exploring the case of mental abacus (MA), a technique in which…
Descriptors: Nonverbal Communication, Problem Solving, Computation, Schemata (Cognition)
Bender, Andrea; Beller, Sieghard – Cognitive Science, 2017
Mangarevan traditionally contained two numeration systems: a general one, which was highly regular, decimal, and extraordinarily extensive; and a specific one, which was restricted to specific objects, based on diverging counting units, and interspersed with binary steps. While most of these characteristics are shared by numeration systems in…
Descriptors: Arithmetic, Mental Computation, Anthropology, Archaeology
DeWolf, Melissa; Son, Ji Y.; Bassok, Miriam; Holyoak, Keith J. – Cognitive Science, 2017
Why might it be (at least sometimes) beneficial for adults to process fractions componentially? Recent research has shown that college-educated adults can capitalize on the bipartite structure of the fraction notation, performing more successfully with fractions than with decimals in relational tasks, notably analogical reasoning. This study…
Descriptors: Priming, Multiplication, Number Concepts, Fractions
