Enacting Biomolecular Interactions in VR: Impact on Student Conceptual Understanding in Biochemistry

Prajakt Pande*

*Corresponding author

Publikation: Bidrag til bog/antologi/rapportKonferencebidrag i proceedingsForskningpeer review

Abstract

Through the theoretical lenses of embodied and enactive learning, this paper reports the instructional effectiveness of immersive virtual reality (VR) in helping undergraduates learn core biochemistry concepts. The reported pretest-posttest quasi-experimental study investigated how student enactment and learning of biochemical interactions in a VR simulation designed for embodied and enactive learning compared with traditional slideshow lecture-based instruction in terms of student learning outcomes across a number of cognitive (conceptual learning) and affective (intrinsic motivation, self-efficacy, perceived learning) measures. Thirty-eight undergraduates (17 females) who volunteered to participate in the study randomly received either the VR simulation (19), or slideshow-based traditional (18) instruction. Preliminary statistical analyses revealed that embodied and enactive interactions in VR: (i) had a significant positive impact on conceptual understanding in contrast to traditional instruction, and (ii) significantly helped in improving self-efficacy and confidence among the students, but was indifferent from the traditional instruction on student scores in intrinsic motivation and perceived learning tests.

OriginalsprogEngelsk
Titel31st International Conference on Computers in Education, ICCE 2023 - Proceedings
RedaktørerJu-Ling Shih, Akihiro Kashihara, Weiqin Chen, Weiqin Chen, Hiroaki Ogata, Ryan Baker, Ben Chang, Seb Dianati, Jayakrishnan Madathil, Ahmed Mohamed Fahmy Yousef, Yuqin Yang, Hafed Zarzour
Antal sider9
ForlagAsia-Pacific Society for Computers in Education
Publikationsdatodec. 2023
Sider317-325
ISBN (Elektronisk)9786269689026
StatusUdgivet - dec. 2023
Begivenhed31st International Conference on Computers in Education, ICCE 2023 - Matsue, Shimane, Japan
Varighed: 4 dec. 20238 dec. 2023

Konference

Konference31st International Conference on Computers in Education, ICCE 2023
Land/OmrådeJapan
ByMatsue, Shimane
Periode04/12/202308/12/2023
SponsorKyoto University, Learning and Educational Technologies Research Unit, Photron Limited, Research Council of Evidence-Driven Education, Uchida Yoko Co. Ltd.
Navn31st International Conference on Computers in Education, ICCE 2023 - Proceedings
Vol/bind2

Emneord

  • 4E Cognition
  • Embodied Learning
  • Immersion
  • Science Education
  • Technology-enhanced Learning
  • Virtual Reality

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