Interpretation of Scientific or Mathematical Concepts: Cognitive Issues and Instructional Implications

Cognitive Science 11 (4):395-416 (1987)
  Copy   BIBTEX

Abstract

Scientific and mathematical concepts are significantly different from everyday concepts and are notoriously difficult to learn. It is shown that particular instances of such concepts can be identified or generated by different possible modes of concept interpretation. Some of these modes use formally explicit knowledge and thought processes; others rely on less formal case‐based knowledge and more automatic recognition processes. The various modes differ in attainable precision, likely errors, and ease of use. A combination of such modes can be used to formulate an “ideal” model for interpreting scientific concepts both reliably and efficiently. Comparisons are made with the actual concept interpretations of expert scientists and novice students. The discussion elucidates some cognitive and metacognitive reasons why the learning of scientific or mathematical concepts is difficult. It also suggests instructional guidelines for teaching such concepts more effectively.

Categories

Keywords

Reprint years

DOI

10.1207/s15516709cog1104_1

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 91,386

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

Mathematical symbols as epistemic actions.Johan De Smedt & Helen De Cruz - 2013 - Synthese 190 (1):3-19.
Developments in Research on Mathematical Practice and Cognition.Alison Pease, Markus Guhe & Alan Smaill - 2013 - Topics in Cognitive Science 5 (2):224-230.
Conceptual change in science and in science education.Nancy J. Nersessian - 1989 - Synthese 80 (1):163 - 183.
Mathematical intuition and the cognitive roots of mathematical concepts.Giuseppe Longo & Arnaud Viarouge - 2010 - Topoi 29 (1):15-27.
Persistent propensities: Portrait of a familiar controversy. [REVIEW]Alfred Nordmann - 1990 - Biology and Philosophy 5 (4):379-399.
Remarks on a Structural Account of Scientific Explanation.Laura Felline - 2010 - In M. Suarez, M. Dorato & M. Redei (eds.), Launch of the European Philosophy of Science Association. Springer. pp. 43--53.
Conceptual Cognitive Organs: Toward an Historical-Materialist Theory of Scientific Knowledge.Siyaves Azeri - 2013 - Philosophia 41 (4):1095-1123.
Scientific Philosophy, Mathematical Philosophy, and All That.Hannes Leitgeb - 2013 - Metaphilosophy 44 (3):267-275.
To Naturalize or Not to Naturalize? An Issue for Cognitive Science as Well as Anthropology.Keith Stenning - 2012 - Topics in Cognitive Science 4 (3):413-419.
Interpretations, according to Tarski.Harvey Friedman - unknown
Concepts as Tools in the Experimental Generation of Knowledge in Cognitive Neuropsychology.Uljana Feest - 2010 - Spontaneous Generations 4 (1):173-190.
Evolution and continuity in scientific change.Dudley Shapere - 1989 - Philosophy of Science 56 (3):419-437.

Analytics

Added to PP
2013-11-21

Downloads
17 (#846,424)

6 months
2 (#1,232,442)

Historical graph of downloads
How can I increase my downloads?

Citations of this work

Add more citations

References found in this work

Principles of categorization [Електронний ресурс]/Eleonora Rosch.E. Rosch - 1978 - In Eleanor Rosch & Barbara Lloyd (eds.), Cognition and Categorization. Lawrence Elbaum Associates.
Cognition and Categorization.Eleanor Rosch & Barbara Bloom Lloyd (eds.) - 1978 - Lawrence Elbaum Associates.
Heuristic classification.William J. Clancey - 1985 - Artificial Intelligence 27 (3):289-350.
Congitive representations of semantic categories.Eleanor Rosch - 1975 - Journal of Experimental Psychology 104 (3):192-233.

View all 7 references / Add more references