- New
-
Topics
- All Categories
- Metaphysics and Epistemology
- Value Theory
- Science, Logic, and Mathematics
- Science, Logic, and Mathematics
- Logic and Philosophy of Logic
- Philosophy of Biology
- Philosophy of Cognitive Science
- Philosophy of Computing and Information
- Philosophy of Mathematics
- Philosophy of Physical Science
- Philosophy of Social Science
- Philosophy of Probability
- General Philosophy of Science
- Philosophy of Science, Misc
- History of Western Philosophy
- Philosophical Traditions
- Philosophy, Misc
- Other Academic Areas
- Journals
- Submit material
- More
Fractions We Cannot Ignore: The Nonsymbolic Ratio Congruity Effect
Cognitive Science 41 (6):1656-1674 (2017)
Abstract
Although many researchers theorize that primitive numerosity processing abilities may lay the foundation for whole number concepts, other classes of numbers, like fractions, are sometimes assumed to be inaccessible to primitive architectures. This research presents evidence that the automatic processing of nonsymbolic magnitudes affects processing of symbolic fractions. Participants completed modified Stroop tasks in which they selected the larger of two symbolic fractions while the ratios of the fonts in which the fractions were printed and the overall sizes of the compared fractions were manipulated as irrelevant dimensions. Participants were slower and less accurate when nonsymbolic dimensions of printed fractions were incongruent with the symbolic comparison decision. Results indicated a robust basic sensitivity to nonsymbolic ratios that exceeds prior conceptions about the accessibility of fraction values. Results also indicated a congruity effect for overall fraction size, contrary to findings of prior research. These findings have implications for extending theory about the nature of human number sense and mathematical cognition more generally.My notes
Similar books and articles
Relational Priming Based on a Multiplicative Schema for Whole Numbers and Fractions.Melissa DeWolf, Ji Y. Son, Miriam Bassok & Keith J. Holyoak - 2017 - Cognitive Science 41 (8):2053-2088.
Symbolic and nonsymbolic pathways of number processing.Tom Verguts & Wim Fias - 2008 - Philosophical Psychology 21 (4):539 – 554.
Symbolic and nonsymbolic number comparison in children with and without dyscalculia.Christophe Mussolin, Sandrine Mejias & Marie-Pascale Noël - 2010 - Cognition 115 (1):10-25.
Working Memory in Nonsymbolic Approximate Arithmetic Processing: A Dual‐Task Study With Preschoolers.Iro Xenidou‐Dervou, Ernest C. D. M. Lieshout & Menno Schoot - 2014 - Cognitive Science 38 (1):101-127.
Preschool children's mapping of number words to nonsymbolic numerosities.Elizabeth Spelke - manuscript
Preschool Children's Mapping of Number Words to Nonsymbolic Numerosities.Jennifer S. Lipton & Elizabeth S. Spelke - unknown
Altägyptische Rezepturen metrologisch neu interpretiert.Tanja Pommerening - 2003 - Berichte Zur Wissenschaftsgeschichte 26 (1):1-16.
Laterality briefed: Laterality modulates performance in a numerosity-congruity task.Sharon Naparstek & Avishai Henik - 2012 - Consciousness and Cognition 21 (1):444-450.
Transformation of fractions into simple fractions in divisive meadows.J. A. Bergstra & C. A. Middelburg - 2016 - Journal of Applied Logic 16:92-110.
Note on paraconsistency and reasoning about fractions.Jan A. Bergstra & Inge Bethke - 2015 - Journal of Applied Non-Classical Logics 25 (2):120-124.
Histoire de fractions, fractions d'histoire, coordonné par Paul Benoit, Karine Chemla et Jim Ritter.[author unknown] - 1994 - Revue d'Histoire des Sciences 47 (3-4):514-515.
Symbolic arithmetic knowledge without instruction.Camilla K. Gilmore, Shannon E. McCarthy & Elizabeth S. Spelke - unknown
Histoire de fractions, fractions d'histoire.G. Canepa & D. Palladino - 1996 - Epistemologia 19 (1):182-183.
Whither Internal Representations? In Defense of Antirepresentationalism and Other Heresies.Robert Stanley Stufflebeam - 1997 - Dissertation, Washington University
Representations and Processes of Human Spatial Competence.Glenn Gunzelmann & Don R. Lyon - 2011 - Topics in Cognitive Science 3 (4):741-759.
Analytics
Added to PP
2016-10-21
Downloads
24 (#634,312)
6 months
5 (#632,353)
2016-10-21
Downloads
24 (#634,312)
6 months
5 (#632,353)
Historical graph of downloads
Citations of this work
Executive function in learning mathematics by comparison: incorporating everyday classrooms into the science of learning.Kreshnik Nasi Begolli, Lindsey Engle Richland, Susanne M. Jaeggi, Emily McLaughlin Lyons, Ellen C. Klostermann & Bryan J. Matlen - 2018 - Thinking and Reasoning 24 (2):280-313.
From continuous magnitudes to symbolic numbers: The centrality of ratio.Pooja G. Sidney, Clarissa A. Thompson, Percival G. Matthews & Edward M. Hubbard - 2017 - Behavioral and Brain Sciences 40.
Dissociation between magnitude comparison and relation identification across different formats for rational numbers.Maureen E. Gray, Melissa DeWolf, Miriam Bassok & Keith J. Holyoak - 2018 - Thinking and Reasoning 24 (2):179-197.
How the Abstract Becomes Concrete: Irrational Numbers Are Understood Relative to Natural Numbers and Perfect Squares.Purav Patel & Sashank Varma - 2018 - Cognitive Science 42 (5):1642-1676.
Task Constraints Affect Mapping From Approximate Number System Estimates to Symbolic Numbers.Dana L. Chesney & Percival G. Matthews - 2018 - Frontiers in Psychology 9.
References found in this work
Core systems of number.Stanislas Dehaene, Elizabeth Spelke & Lisa Feigenson - 2004 - Trends in Cognitive Sciences 8 (7):307-314.
A theory of magnitude: common cortical metrics of time, space and quantity.V. Walsh - 2003 - Trends in Cognitive Sciences 7 (11):483-488.
Fractions: the new frontier for theories of numerical development.Robert S. Siegler, Lisa K. Fazio, Drew H. Bailey & Xinlin Zhou - 2013 - Trends in Cognitive Sciences 17 (1):13-19.
Relating magnitudes: the brain's code for proportions.Simon N. Jacob, Daniela Vallentin & Andreas Nieder - 2012 - Trends in Cognitive Sciences 16 (3):157-166.
Estimating Large Numbers.David Landy, Noah Silbert & Aleah Goldin - 2013 - Cognitive Science 37 (5):775-799.
PhilPapers logo by Andrea Andrews and Meghan Driscoll.
This site uses cookies and Google Analytics (see our terms & conditions for details regarding the privacy implications). Use of this site is subject to terms & conditions.
All rights reserved by The PhilPapers Foundation
Server: philpapers-web-7c76586df8-5tf24 uwo