Correlation between Student Collaboration Network Centrality and Academic Performance

Correlation between Student Collaboration Network Centrality and Academic Performance

We compute nodal centrality measures on the collaboration networks of students enrolled in three upper-division physics courses, usually taken sequentially, at the Colorado School of Mines. These are complex networks in which links between students indicate assistance with homework. The courses incl...

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Bibliographic Details
Published in:Physical review. Physics education research 2018-10, Vol.14 (2), p.020112, Article 020112
Main Authors: Vargas, David L, Bridgeman, Ariel M, Schmidt, David R, Kohl, Patrick B, Wilcox, Bethany R, Carr, Lincoln D
Format: Article
Language:eng
Subjects:
Academic Achievement
Classical mechanics
Collaboration
College Students
Cooperative Learning
Correlation
Electromagnetism
Homework
Network Analysis
Networks
Physics
Quantum Mechanics
Science Instruction
Scientific Concepts
Scores
Social Networks
Students
Tests
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Summary:We compute nodal centrality measures on the collaboration networks of students enrolled in three upper-division physics courses, usually taken sequentially, at the Colorado School of Mines. These are complex networks in which links between students indicate assistance with homework. The courses included in the study are intermediate classical mechanics, introductory quantum mechanics, and intermediate electromagnetism. By correlating these nodal centrality measures with students' scores on homework and exams, we find four centrality measures that correlate significantly with students' homework scores in all three courses: in-strength, out-strength, closeness centrality, and harmonic centrality. These correlations suggest that students who not only collaborate often, but also collaborate significantly with many different people tend to achieve higher grades. Centrality measures between simultaneous collaboration networks (analytical versus numerical homework collaboration) composed of the same students also correlate with each other, suggesting that students' collaboration strategies remain relatively stable when presented with homework assignments targeting different skills. Additionally, we correlate centrality measures between collaboration networks from different courses and find that the four centrality measures with the strongest relationship to students' homework scores are also the most stable measures across networks involving different courses. Correlations of centrality measures with exam scores were generally smaller than the correlations with homework scores, though this finding varied across courses.
ISSN:2469-9896
2469-9896