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Abstract
This article analyzes the theoretical and practical aspects of organizing chemistry laboratory activities based on virtual reality (VR) technologies. The study scientifically covers the impact of VR technologies on the educational process based on the theory of cognitive visualization and the immersive learning effect. It also examines the capabilities of Chemstr and other virtual laboratory programs, their role and effectiveness in teaching chemistry.
References
1. Weymuth, T., & Reiher, M. (2020). Immersive Quantum Chemistry Education. https://arxiv.org/abs/2011.03256
2. MolecularWebXR Platform. (2023). Virtual Chemistry Learning Tools. https://arxiv.org/abs/2311.00385
3. ChemistryLab Virtual Software. Sugggest. Retrieved March 28, 2026, from https://sugggest.com/software/chemistrylab
4. Virtual Chemistry Lab. Steam Store. Retrieved March 28, 2026, from https://store.steampowered.com/app/2257640/Virtual_Chemistry_Lab/
5. VR Chemistry. iXR Labs. Retrieved March 28, 2026, from https://www.ixrlabs.com/chemistry.php
6. VirtualChem Labs. Retrieved March 28, 2026, from https://virtualchemlabs.com/
7. Chem Verse Platform. Retrieved March 28, 2026, from https://chemvers.netlify.app/
8. Chemistry XR. The XR School. Retrieved March 28, 2026, from https://thexrschool.com/chemistry-xr/