In science learning, context is an important dimension of any scientific object or phenomenon, and context-dependent variations prove to be as critical for a deep understanding as are abstract concepts, laws or rules. Our hypothesis is that a context gap can be illuminating to highlight the respective general-particular aspects of an object or phenomenon. i¾?Furthermore, provoking a perturbation during the learning process to obtain the emergence of such an event could be a productive tutoring strategy. We introduce the emergence of context effects as a problem space, to be modeled in the system. We propose a model of the contextual dimension, associated with an analytical view of its modeling, based on a metaphor in physics.
[1]
Ian S. Ginns,et al.
Outcomes and Implications of One Teacher's Approach to Context-Based Science in the Middle Years.
,
2011
.
[2]
Jacqueline Bourdeau,et al.
Advances in Intelligent Tutoring Systems
,
2010
.
[3]
Thomas Forissier,et al.
La contextualisation dans l'enseignement des sciences et techniques en Guadeloupe
,
2009
.
[4]
Wolff-Michael Roth,et al.
Authentic school science : knowing and learning in open-inquiry science laboratories
,
1995
.
[5]
W. Sandoval,et al.
Design-Based Research Methods for Studying Learning in Context: Introduction
,
2004
.