March 2025
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56 Reads
Background: Integrating serious games in immersive virtual reality (IVR) enhances university physics education by addressing student motivation and engagement challenges. Traditional methods often fail to link abstract concepts with real-world applications, reducing interest. IVR and serious games create interactive environments that dynamically reinforce complex scientific principles, improving learning experiences. Methodology: A pre- and post-experimental design was conducted with 17 Physics 1 students from Universidad Tecnologica de Pereira (UTP). The participants were assessed before engaging with “Parabolic Basketball VR” to measure their initial understanding of projectile motion. After gameplay, post-intervention evaluations were conducted to analyze learning outcomes. Results: The intervention significantly improved students’ understanding, with post-intervention scores notably higher. The Wilcoxon signed-rank test (p = 0.007, Z = −2.687) confirmed a substantial increase in scores, demonstrating the game’s effectiveness in enhancing conceptual learning. Conclusions: “Parabolic Basketball VR” effectively enhances learning of projectile motion through immersive and interactive experiences. The significant improvements observed confirm the potential of integrating well-designed serious games into physics education, suggesting that these tools can significantly enhance both the theoretical understanding and practical application of complex scientific concepts. This study underscores the importance of aligning educational content with interactive gameplay to achieve learning objectives, providing a valuable approach for future educational strategies in scientific disciplines.