Don't we know enough about models? Integrating a replication study into an introductory chemistry course in higher education.

Marvin Rost (Corresponding author), Ines Sonnenschein, Stephanie Möller, Anja Lembens

Publications: Contribution to journalArticlePeer Reviewed

Abstract

This paper presents the German translation and replication of the Students' Understanding of Models in Science (SUMS) instrument, aiming to assess how first-semester university students comprehend the submicroscopic level in chemistry courses. The assessment of students' understanding is a prerequisite for improving teaching practices, particularly in addressing the persistently high drop-out rates observed in chemistry and chemistry-related programs. Employing a quantitative methodology, a sample of 181 undergraduate chemistry students was surveyed. The data were analyzed using structural equation modeling, resulting in two statistical models that demonstrated an excellent fit to the data, although no empirical preference could be established for one model over the other. Based on the investigation, framing models as exact replicas of the natural world cannot be considered an empirically meaningful dimension of understanding models in science. Additionally, the reliabilities of the latent constructs were found to be insufficiently low to establish generalizable measurements. These findings are discussed with a focus on epistemology and advocate for a stronger integration of model theory in chemistry teaching and learning. Finally, the importance of establishing a stronger connection between empirical evidence and the implementation of curricular changes in higher education is emphasized.

Original languageEnglish
Pages (from-to)1-13
JournalChemistry Teacher International
DOIs
Publication statusE-pub ahead of print - 15 Sept 2023

Austrian Fields of Science 2012

  • 503013 Subject didactics of natural sciences

Keywords

  • chemistry
  • higher education
  • meta-modeling knowledge

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