Modeling the Invisible: Effects of a Blender-Designed Interactive 3D DNA Model on Technology-Enhanced Biology Learning in Moroccan Secondary Schools
DOI :
https://doi.org/10.5281/zenodo.21282040Résumé
Abstract
Digital visualization tools are increasingly used in science education for concepts that are abstract, microscopic, and spatially complex. This study examines the effect of a Blender-designed interactive three-dimensional DNA model, integrated into the BioStrato web platform, on Moroccan secondary students’ conceptual understanding of DNA structure. A quasi-experimental pre-test/post-test control-group design was conducted with sixty second-year Baccalaureate students majoring in Life and Earth Sciences, assigned to conditions at the intact-class level. The experimental group of thirty students learned DNA structure through a teacher-guided lesson supported by the interactive model, while the control group of thirty students received conventional instruction using teacher explanation and static two-dimensional diagrams. Learning outcomes were measured with a twenty-item achievement test, and experimental-group perceptions were explored through a post-intervention questionnaire and structured classroom observation. The two groups did not differ at pre-test. Both groups improved after instruction, but the experimental group achieved a higher mean learning gain than the control group. An analysis of covariance on post-test scores, controlling for pre-test scores, confirmed a significant group effect with a medium effect size. Questionnaire responses and classroom observations indicated that students perceived the model as clear, motivating, and useful for visualizing molecular structure. The findings suggest that accessible open-source three-dimensional modeling tools, when integrated into a structured teaching sequence, can enhance technology-supported biology learning in resource-constrained secondary-school contexts.
Keywords
Technology-enhanced learning; 3D modeling; Blender; interactive visualization; biology education; DNA structure; secondary education; Morocco
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(c) Tous droits réservés African Scientific Journal 2026

Ce travail est disponible sous licence Creative Commons Attribution - Pas d'Utilisation Commerciale - Pas de Modification 4.0 International.

















