6533b7ddfe1ef96bd1273c6d
RESEARCH PRODUCT
Arithmetic Problems Formulation and Working Memory Load
Michel FayolHervé AbdiJean-emile Gombertsubject
AlgebraVariablesWorking memorymedia_common.quotation_subjectDevelopmental and Educational PsychologyExperimental and Cognitive PsychologyState (computer science)Mathematical problem solvingArithmeticGeneral PsychologyEducationmedia_commonMathematicsdescription
First, third, and fifth graders (French children in American-numbered grades) were asked to solve arithmetic problems in which an initial state was modified by two successive transformations. Three independent variables were manipulated systematically. First, the unknown state was either the final state (Sl) or the initial state (S2). Second, either the known state (01) or the transformations (02) appeared in the first place in the problem wording. Third, the question was either located at the end (Ql) or at the beginning (42) of the problem text. As anticipated, these modifications strongly affected the performances at every age: S1 appears clearly easier than S2; 0 1 leads to a better performance than 02; and Q1 is better than 42. The third graders participated in a second experiment in which they had to solve the same problems but with easier numbers. As in the first experiment, we found strong effects related to the problem types (S1 vs. S2) and to the place of the transformations in the problem. Howe...
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1987-09-01 | Cognition and Instruction |