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What Makes Mental Modeling Difficult? Normative Data for the Multidimensional Relational Reasoning Task

Robert A. Cortes, Adam B. Weinberger, Griffin A. Colaizzi, Grace F. Porter, Emily L. Dyke, Holly O. Keaton, Dakota L. Walker & Adam E. Green

Frontiers in Psychology 12 (2021)

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Working memory involvement in propositional and spatial reasoning.Karl Christoph Klauer - 1997 - Thinking and Reasoning 3 (1):9 – 47.details Four experiments assessed the relative involvement of different working memory components in two types of reasoning tasks: propositional and spatial reasoning. Using the secondary-task methodology, visual, central-executive, and phonological loads were realised. Although the involvement of visuospatial resources in propositional reasoning has traditionally been considered to be small, an overall analysis of the present data suggests an alternative account. A theoretical analysis of the pattern of results in terms of Evans' (1984, 1989) twostage theory of reasoning is proposed and tested (...) Download Export citation Bookmark 18 citations
Structure‐Mapping: A Theoretical Framework for Analogy.Dedre Gentner - 1983 - Cognitive Science 7 (2):155-170.details A theory of analogy must describe how the meaning of an analogy is derived from the meanings of its parts. In the structure‐mapping theory, the interpretation rules are characterized as implicit rules for mapping knowledge about a base domain into a target domain. Two important features of the theory are (a) the rules depend only on syntactic properties of the knowledge representation, and not on the specific content of the domains; and (b) the theoretical framework allows analogies to be distinguished (...) Download Export citation Bookmark 538 citations
Processing capacity defined by relational complexity: Implications for comparative, developmental, and cognitive psychology.Graeme S. Halford, William H. Wilson & Steven Phillips - 1998 - Behavioral and Brain Sciences 21 (6):803-831.details Working memory limits are best defined in terms of the complexity of the relations that can be processed in parallel. Complexity is defined as the number of related dimensions or sources of variation. A unary relation has one argument and one source of variation; its argument can be instantiated in only one way at a time. A binary relation has two arguments, two sources of variation, and two instantiations, and so on. Dimensionality is related to the number of chunks, because (...) Download Export citation Bookmark 95 citations
The three-term series problem.Philip N. Johnson-Laird - 1972 - Cognition 1 (1):57-82.details Download Export citation Bookmark 17 citations
Evidence for mental-model-based reasoning: A comparison of reasoning with time and space concepts.Andre Vandierendonck - 1996 - Thinking and Reasoning 2 (4):249 – 272.details Johnson -Laird has argued that spatial reasoning is based on the construction and manipulation of mental models in memory. The present article addresses the question of whether reasoning about time relations is constrained by the same factors as reasoning about spatial relations. An experiment is reported that explored the similarities and the differences in the performance of subjects in comparable spatial and temporal reasoning tasks. The results indicated that, in both the temporal and the spatial content domains, the data were (...) Download Export citation Bookmark 9 citations
Strategies in relational inference.Maxwell J. Roberts - 2000 - Thinking and Reasoning 6 (1):1 – 26.details Three experiments are reported in which the relationships between task format, item type, and strategy usage were investigated for a two-dimensional relational inference task. Contrary to past findings with linear syllogisms, it was found that parallel presentation (presenting problem statements simultaneously) did not result in any increased use of deduction rule processes compared with serial presentation (presenting problem statements individually). Instead, the results suggested that mental models were used by the majority of subjects, and that multiple models were more likely (...) Download Export citation Bookmark 14 citations
A neurocomputational system for relational reasoning.Barbara J. Knowlton, Robert G. Morrison, John E. Hummel & Keith J. Holyoak - 2012 - Trends in Cognitive Sciences 16 (7):373-381.details Download Export citation Bookmark 12 citations
Reasoning About Relations.Geoffrey P. Goodwin & Philip Johnson-Laird - 2005 - Psychological Review 112 (2):468-493.details Inferences about spatial, temporal, and other relations are ubiquitous. This article presents a novel model-based theory of such reasoning. The theory depends on 5 principles. The structure of mental models is iconic as far as possible. The logical consequences of relations emerge from models constructed from the meanings of the relations and from knowledge. Individuals tend to construct only a single, typical model. They spontaneously develop their own strategies for relational reasoning. Regardless of strategy, the difficulty of an inference depends (...) Download Export citation Bookmark 30 citations
Reasoning about relations: Spatial and nonspatial problems.Manuel Carreiras & Carlos Santamaria - 1997 - Thinking and Reasoning 3 (3):191 – 208.details Two experiments investigated the mental representation of spatial and nonspatial two-dimensional problems. The experiments were designed to contrast opposite predictions of the model theory of reasoning and the formal rules of inference theories. Half of the problems required more inferential steps but only one model, whereas the other half required fewer inferential steps but two models. According to the inference rules, theory problems that require more inferential steps should be harder, whereas the model-based theory predicts that problems that require two (...) Download Export citation Bookmark 11 citations

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