Predicting the difficulty of complex logical reasoning problems

Stephen E. Newstead; Peter Bradon; Simon J. Handley; Ian Dennis; Jonathan St B T Evans

doi:10.1080/13546780542000023

Predicting the difficulty of complex logical reasoning problems

Stephen E. Newstead^*, Peter Bradon, Simon J. Handley, Ian Dennis, Jonathan St B T Evans

^*Corresponding author for this work

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

13 Citations (Scopus)

Abstract

The aim of the present research was to develop a difficulty model for logical reasoning problems involving complex ordered arrays used in the Graduate Record Examination. The approach used involved breaking down the problems into their basic cognitive elements such as the complexity of the rules used, the number of mental models required to represent the problem, and question type. Weightings for these different elements were derived from two experimental studies and from the reasoning literature. Based on these weights, difficulty models were developed which were then tested against new data. The models had excellent predictive validity and showed the relative influence of rule based factors and factors relating to the number of underlying models. Different difficulty models were needed for different question types, suggesting that people used a variety of approaches and, at a wider level, that both mental models and mental rules may be used in reasoning.

Original language	English
Pages (from-to)	62-90
Number of pages	29
Journal	Thinking and Reasoning
Volume	12
Issue number	1
DOIs	https://doi.org/10.1080/13546780542000023
Publication status	Published - Feb 2006
Externally published	Yes

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10.1080/13546780542000023

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AU - Newstead, Stephen E.

AU - Bradon, Peter

AU - Handley, Simon J.

AU - Dennis, Ian

AU - Evans, Jonathan St B T

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N2 - The aim of the present research was to develop a difficulty model for logical reasoning problems involving complex ordered arrays used in the Graduate Record Examination. The approach used involved breaking down the problems into their basic cognitive elements such as the complexity of the rules used, the number of mental models required to represent the problem, and question type. Weightings for these different elements were derived from two experimental studies and from the reasoning literature. Based on these weights, difficulty models were developed which were then tested against new data. The models had excellent predictive validity and showed the relative influence of rule based factors and factors relating to the number of underlying models. Different difficulty models were needed for different question types, suggesting that people used a variety of approaches and, at a wider level, that both mental models and mental rules may be used in reasoning.

AB - The aim of the present research was to develop a difficulty model for logical reasoning problems involving complex ordered arrays used in the Graduate Record Examination. The approach used involved breaking down the problems into their basic cognitive elements such as the complexity of the rules used, the number of mental models required to represent the problem, and question type. Weightings for these different elements were derived from two experimental studies and from the reasoning literature. Based on these weights, difficulty models were developed which were then tested against new data. The models had excellent predictive validity and showed the relative influence of rule based factors and factors relating to the number of underlying models. Different difficulty models were needed for different question types, suggesting that people used a variety of approaches and, at a wider level, that both mental models and mental rules may be used in reasoning.

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Predicting the difficulty of complex logical reasoning problems

Abstract

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