Cognitive processing of spatial relations in Euclidean diagrams

, , &
Acta Psychologica 205:1--10 (2020)
  Copy   BIBTEX

Abstract

The cognitive processing of spatial relations in Euclidean diagrams is central to the diagram-based geometric practice of Euclid's Elements. In this study, we investigate this processing through two dichotomies among spatial relations—metric vs topological and exact vs co-exact—introduced by Manders in his seminal epistemological analysis of Euclid's geometric practice. To this end, we carried out a two-part experiment where participants were asked to judge spatial relations in Euclidean diagrams in a visual half field task design. In the first part, we tested whether the processing of metric vs topological relations yielded the same hemispheric specialization as the processing of coordinate vs categorical relations. In the second part, we investigated the specific performance patterns for the processing of five pairs of exact/co-exact relations, where stimuli for the co-exact relations were divided into three categories depending on their distance from the exact case. Regarding the processing of metric vs topological relations, hemispheric differences were found for only a few of the stimuli used, which may indicate that other processing mechanisms might be at play. Regarding the processing of exact vs co-exact relations, results show that the level of agreement among participants in judging co-exact relations decreases with the distance from the exact case, and this for the five pairs of exact/co-exact relations tested. The philosophical implications of these empirical findings for the epistemological analysis of Euclid's diagram-based geometric practice are spelled out and discussed.

Categories

Keywords

Reprint years

Links

PhilArchive

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

Prolegomena to a cognitive investigation of Euclidean diagrammatic reasoning.Yacin Hamami & John Mumma - 2013 - Journal of Logic, Language and Information 22 (4):421-448.
The Euclidean Diagram.Kenneth Manders - 2008 - In Paolo Mancosu (ed.), The Philosophy of Mathematical Practice. Oxford University Press. pp. 80--133.
To Prove the Evident: On the Inferential Role of Euclidean Diagrams.Davide Crippa - 2009 - Teorie Vědy / Theory of Science 31 (2):101-112.
Processing Spatial Relations With Different Apertures of Attention.Bruno Laeng, Matia Okubo, Ayako Saneyoshi & Chikashi Michimata - 2011 - Cognitive Science 35 (2):297-329.
Two preference metrics provide settings for the study of properties of binary relations.Vicki Knoblauch - 2015 - Theory and Decision 79 (4):615-625.
Comprehending 3D Diagrams: Sketching to Support Spatial Reasoning.Kristin M. Gagnier, Kinnari Atit, Carol J. Ormand & Thomas F. Shipley - 2016 - Topics in Cognitive Science:883-901.
The Epistemological Import of Euclidean Diagrams.Daniele Molinini - 2016 - Kairos 16 (1):124-141.
Elementary polyhedral mereotopology.Ian Pratt-Hartmann & Dominik Schoop - 2002 - Journal of Philosophical Logic 31 (5):469-498.
A comment on rcc: From rcc to rcc ++.Tiansi Dong - 2008 - Journal of Philosophical Logic 37 (4):319 - 352.
Diagrams as Vehicles for Scientific Reasoning.William Bechtel & Adele Abrahamsen - unknown
A Comment on Rcc: From Rcc to Rcc++.Tiansi Dong - 2008 - Journal of Philosophical Logic 37 (4):319-352.
Diagrams as Tools for Scientific Reasoning.Adele Abrahamsen & William Bechtel - 2015 - Review of Philosophy and Psychology 6 (1):117-131.
The impossibility of relations between non-collocated spatial objects and non-identical topological spaces.Jeffrey Grupp - 2005 - Axiomathes 15 (1):85-141.
Relations Without Forms: Some Consequences of Aquinas’s Metaphysics of Relations.Thomas M. Ward - 2010 - Vivarium 48 (3):279-301.
Exploring the fruitfulness of diagrams in mathematics.Jessica Carter - 2019 - Synthese 196 (10):4011-4032.

Analytics

Added to PP
2020-05-22

Downloads
386 (#49,863)

6 months
82 (#52,408)

Historical graph of downloads
How can I increase my downloads?

Author Profiles

Yacin Hamami
ETH Zurich
John Mumma
California State University, San Bernardino

Citations of this work

No citations found.

Add more citations

References found in this work

Mathematical Knowledge and the Interplay of Practices.José Ferreirós - 2015 - Princeton, USA: Princeton University Press.
The Shaping of Deduction in Greek Mathematics: A Study in Cognitive History.Reviel Netz - 1999 - Cambridge and New York: Cambridge University Press.
The Philosophy of Mathematical Practice.Paolo Mancosu (ed.) - 2008 - Oxford, England: Oxford University Press.
The Euclidean Diagram.Kenneth Manders - 2008 - In Paolo Mancosu (ed.), The Philosophy of Mathematical Practice. Oxford University Press. pp. 80--133.

View all 11 references / Add more references