Looking Beyond Disciplinary Silos: Revealing Students' Interdisciplinary Understanding by Applying the Topic Modeling Technique

Hyesun You; Minju Hong

doi:10.1007/s11165-024-10160-x

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Looking Beyond Disciplinary Silos: Revealing Students' Interdisciplinary Understanding by Applying the Topic Modeling Technique

Journal article

Peer reviewed

Looking Beyond Disciplinary Silos: Revealing Students' Interdisciplinary Understanding by Applying the Topic Modeling Technique

Hyesun You and Minju Hong

Research in science education (Australasian Science Education Research Association), Vol.54(4), pp.645-669

02/13/2024

DOI: 10.1007/s11165-024-10160-x

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Abstract

Natural phenomena and scientific issues are intrinsically interdisciplinary. Students need to study a variety of academic disciplines in the natural sciences to explain a phenomenon or its related problems. Our goal in the current study was to examine the epistemological foundation of students' interdisciplinary understanding of carbon cycling using the supervised latent Dirichlet allocation model. The 454 students in this study were from a public high school and a public research university in Texas. The students' interdisciplinary understanding was shown in each of the constructed response items. In the relationship between the proportion of interdisciplinarity in students' answers to the constructed response items and students' scores on interdisciplinary understanding, all integrations of disciplines were statistically significant in explaining students' interdisciplinary understanding. Moreover, one particular integration set had advantages for obtaining a high score. We found that science coursework contributed to students' interdisciplinary understanding in different ways, and this interdisciplinary understanding was influenced by the number and type of science courses taken. Characterizing interdisciplinarity based on the clusters of science disciplines provided insights into how students synthesize their knowledge. The significance of this study lies in its potential impact on diverse curricular and instructional approaches in interdisciplinary science education.

Social Sciences

Education & Educational Research

Details

Title: Subtitle: Looking Beyond Disciplinary Silos: Revealing Students' Interdisciplinary Understanding by Applying the Topic Modeling Technique
Creators: Hyesun You - Univ Iowa, Coll Educ, Dept Teaching & Learning, Sci Educ, 240 S Madison St, Iowa City, IA 52242 USA
Minju Hong - University of Arkansas at Fayetteville
Resource Type: Journal article
Publication Details: Research in science education (Australasian Science Education Research Association), Vol.54(4), pp.645-669
Publisher: Springer Nature
DOI: 10.1007/s11165-024-10160-x
ISSN: 0157-244X
eISSN: 1573-1898
Number of pages: 25
Language: English
Electronic publication date: 02/13/2024
Academic Unit: Teaching and Learning
Record Identifier: 9984562759002771

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