Back to Search Start Over

Exploring the Entanglement of Personal Epistemologies and Emotions in Students' Thinking

Authors :
Gupta, Ayush
Elby, Andrew
Danielak, Brian A.
Source :
Physical Review Physics Education Research. Jan-Jun 2018 14(1):010129.
Publication Year :
2018

Abstract

Evidence from psychology, cognitive science, and neuroscience suggests that cognition and emotions are coupled. Education researchers have also documented correlations between emotions (such as joy, anxiety, fear, curiosity, boredom) and academic performance. Nonetheless, most research on students' reasoning and conceptual change within the learning sciences and physics and science education research has not attended to the role of learners' emotions in describing or modeling the fine timescale dynamics of their conceptual reasoning. The few studies that integrate emotions into models of learners' cognition have mostly done so at a coarse grain size. In this study, toward the long-term goal of incorporating emotions into models of in-the-moment cognitive dynamics, we present a case study of Judy, an undergraduate electrical engineering and physics major. We show that shifts in the intensity of a fine-grained aspect of Judy's emotions, her annoyance at conceptual homework problems, co-occur with shifts in her epistemological stance toward differentiating knowledge about and the practical utility of real circuits and idealized circuit models. We then argue for the plausibility of a cognitive model in which Judy's emotions and epistemological stances mutually affect each other. We end with discussions on how models of learners' cognition that incorporate their emotions are generative for instructional purposes and research on learning.

Details

Language :
English
ISSN :
2469-9896
Volume :
14
Issue :
1
Database :
ERIC
Journal :
Physical Review Physics Education Research
Publication Type :
Academic Journal
Accession number :
EJ1181440
Document Type :
Journal Articles<br />Reports - Research<br />Tests/Questionnaires
Full Text :
https://doi.org/10.1103/PhysRevPhysEducRes.14.010129