Authors
Chaoran Tong, Lei Que, Hongyan Guan, Xu Zhu
Published in
Frontiers in psychology. Volume 17. Pages 1683244. Epub Jun 10, 2026.
Abstract
Sustaining children's engagement in immersive learning environments is a central challenge in educational psychology. Virtual reality (VR) offers multisensory and interactive experiences that can foster creativity and skill development. However, the psychological mechanisms that drive sustained participation remain underexplored. This study applied the stimulus-organism-response (S-O-R) framework to examine how cognitive engagement (e.g., attention guidance and cognitive load control) and affective arousal (e.g., valence design and arousal intensity) influence children's flow experience, satisfaction, continued engagement, and perceived learning achievement in VR-based pottery education.
A total of 220 elementary school students (aged 7-12 years) from four Chinese cities participated in a structured VR pottery course. Following the activity, participants completed validated questionnaires measuring the targeted constructs. Data were analyzed using partial least squares structural equation modeling, with bootstrapping employed to assess path significance and model fit indices to evaluate the overall adequacy.
Cognitive engagement had a stronger positive impact on flow and satisfaction than affective arousal. Flow was a stronger predictor of continued engagement than satisfaction. Continued engagement significantly predicted perceived learning achievement. The structural model demonstrated acceptable fit (standardized root mean square residual = 0.062), with substantial variance explained in key outcome variables.
These findings highlight the dominant role of cognitive engagement in fostering sustained participation in VR-based creative learning, with affective arousal providing supplementary enhancement. The results extend the stimulus-organism-response framework to children's art education, offering theoretical insights into cognitive-affective mechanisms and practical guidance for designing psychologically optimized VR learning environments.
PMID:
42359317
Bibliographic data and abstract were imported from PubMed on 26 Jun 2026.
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