Meta-analysis of the Impact of Aumented Reality on Motivation, Self-efficacy and Learning in Natural Sciences

• José Gabriel Soriano-Sánchez ^[1] ; David Jiménez-Vázquez ^[1]
  1. [1] Universidad de Jaén

     Universidad de Jaén

     Jaén, España

     
• Localización: Comunicar: Revista Científica de Comunicación y Educación, ISSN 1134-3478, ISSN-e 1988-3293, Nº 85, 2026 (Ejemplar dedicado a: Preparar a la Generación Z para las tecnologías emergentes (medios digitales) mediante la formación y la investigación), págs. 227-240
• Idioma: inglés
• Títulos paralelos:
  • Metaanálisis del impacto de la realidad aumentada en la motivación, la autoeficacia y en el aprendizaje en Ciencias Naturales
• Enlaces
  • Texto completo (pdf)
• Resumen
  • español

    La realidad aumentada es una tecnología valiosa que integra elementos virtuales con el entorno real para crear experiencias de aprendizaje inmersivas y atractivas. A pesar de la extensa literatura sobre realidad aumentada en educación, existen lagunas significativas respecto a su impacto específico en la motivación y el rendimiento académico de los estudiantes en Ciencias Naturales a nivel de educación primaria, y falta de modelos pedagógicos sistematizados que guíen su implementación. Este estudio aborda estas lagunas analizando el efecto de la realidad aumentada sobre la motivación y los resultados académicos, y propone un marco pedagógico replicable para guiar su integración en los procesos de enseñanza y aprendizaje. Además, este trabajo realiza una contribución interdisciplinaria, vinculando la práctica educativa con la comprensión científica al abordar simultáneamente variables relacionadas con la motivación, la didáctica y las tecnologías emergentes. Para ello, se empleó una metodología de revisión sistemática y metaanálisis, siguiendo las directrices PRISMA. Las bases de datos consultadas fueron Education Resources Information Center, Scopus y Web of Science, de las cuales se recuperaron un total de 57 documentos. Tras aplicar rigurosamente los criterios de elegibilidad establecidos, se incluyeron 4 estudios en la revisión sistemática y el metaanálisis para garantizar la validez y relevancia de los hallazgos. Los resultados del metaanálisis mostraron un efecto a favor de los grupos experimentales (Z = 4,64; p < .00001) y una heterogeneidad moderada entre las intervenciones (I² = 0%). Los hallazgos destacan el potencial de la realidad aumentada para mejorar la motivación y el compromiso de los estudiantes, incrementar el rendimiento académico y proporcionar orientación práctica a los docentes sobre la implementación efectiva de estrategias basadas en realidad aumentada. En conclusión, este estudio no solo proporciona evidencia consolidada sobre los beneficios de la realidad aumentada en Ciencias Naturales, sino que también ofrece un marco pedagógico estructurado que puede optimizar la enseñanza y el aprendizaje, representando una contribución novedosa a la práctica educativa y a la investigación.

  • English

    Augmented reality is a valuable technology that integrates virtual elements with the real environment to create immersive and engaging learning experiences. Despite extensive literature on augmented reality in education, significant gaps remain regarding its specific impact on students’ motivation and academic performance in Natural Sciences at the Primary Education level, and there is a lack of systematized pedagogical models guiding its implementation. This study addresses these gaps by analyzing the effect of augmented reality on motivation and academic outcomes and proposing a replicable pedagogical framework to guide its integration into teaching and learning processes. Furthermore, this work makes an interdisciplinary contribution, bridging educational practice and scientific understanding by simultaneously addressing variables related to motivation, didactics, and emerging technologies. For this purpose, a systematic review and meta-analytic methodology was employed, following PRISMA guidelines. The databases consulted were the Education Resources Information Center, Scopus, and Web of Science, from which a total of 57 documents were retrieved. After rigorously applying the established eligibility criteria, 4 studies were included in the systematic review and meta-analysis to ensure the validity and relevance of the findings. The meta-analytic results revealed an effect across the subgroups in favor of the experimental groups (Z = 4.64; p < .00001) and showed moderate heterogeneity across interventions (I² = 0%). The findings highlight the potential of augmented reality to enhance students’ motivation and engagement, improve academic performance, and provide practical guidance for teachers on effectively implementing augmented reality-based strategies. In conclusion, this study not only provides consolidated evidence on the benefits of augmented reality in Natural Sciences but also offers a structured pedagogical framework that can optimize teaching and learning, representing a novel contribution to educational practice and research.

• Referencias bibliográficas
  • Ábalos-Aguilera, F., Romero-Rodríguez, L. M., & Bernal Bravo, C. (2024). TIC, motivación y rendimiento académico en educación primaria:...
  • Adi, N. H., Nelmira, W., Novrita, S. Z., Gusnita, W., Lubis, A. L., & Riyanda, A. R. (2025). Augmented Reality as an Educational Tool:...
  • Amirbekova, E., Shertayeva, N., & Mironova, E. (2024). Teaching chemistry in the metaverse: the effectiveness of using virtual and augmented...
  • Arici, F., Yildirim, P., Caliklar, Ş., & Yilmaz, R. M. (2019). Research trends in the use of augmented reality in science education:...
  • Aygün, E. B., & Çelik, S. (2024). A Systematic Review on Augmented Reality Supported Flipped Classrooms Studies. International Journal...
  • Bandura, A. (1986). Social Foundations of Thought and Action. Prentice Hall.
  • Bandura, A. (2000). Self-Efficacy: An Essential Motive to Learn. Academic Press.
  • Barroso-Osuna, J., Gutiérrez-Castillo, J. J., Llorente-Cejudo, M. d. C., & Ortiz, R. V. (2019). Difficulties in the Incorporation of Augmented...
  • Bölek, K. A., De Jong, G., & Henssen, D. (2021). The effectiveness of the use of augmented reality in anatomy education: a systematic...
  • Buchner, J., & Kerres, M. (2021). Students as Designers of Augmented Reality: Impact on Learning and Motivation in Computer Science. Multimodal...
  • Cai, S., Liu, Z., Liu, C., Zhou, H., & Li, J. (2022). Effects of a BCI-Based AR Inquiring Tool on Primary Students’ Science Learning:...
  • Campos-Mesa, M.-C., Castañeda-Vázquez, C., DelCastillo-Andrés, Ó., & González-Campos, G. (2022). Augmented Reality and the Flipped Classroom—A...
  • Chen, C.-H., Chou, Y.-Y., & Huang, C.-Y. (2016). An Augmented-Reality-Based Concept Map to Support Mobile Learning for Science. The Asia-Pacific...
  • Chen, G., Wang, H., Liang, A., Oubibi, M., & Zhou, Y. (2025). From detached observer to immersive participant: An augmented reality-based...
  • Chen, S.-Y., Lin, P.-H., Lai, Y.-H., & Liu, C.-J. (2024). Enhancing Education on Aurora Astronomy and Climate Science Awareness through...
  • Chiang, T. H., Yang, S. J., & Hwang, G.-J. (2014). An Augmented Reality-based Mobile Learning System to Improve Students’ Learning Achievements...
  • Chin, K.-Y., Lee, K.-F., & Chen, Y.-L. (2019). Effects of a Ubiquitous Guide-Learning System on Cultural Heritage Course Students’ Performance...
  • Ciloglu, T., & Ustun, A. B. (2023). The Effects of Mobile AR-based Biology Learning Experience on Students’ Motivation, Self-Efficacy,...
  • Danakorn Nincarean, A., Phon, L. E., Rahman, M. H. A., Utama, N. I., Ali, M. B., & Kasim, S. (2019). The Effect of Augmented Reality on...
  • Dutta, R., Mantri, A., Singh, G., & Singh, N. P. (2023). Measuring the Impact of Augmented Reality in Flipped Learning Mode on Critical...
  • Erbas, C., & Demirer, V. (2019). The effects of augmented reality on students’ academic achievement and motivation in a biology course....
  • Flores-Bascuñana, M., Diago, P. D., Villena-Taranilla, R., & Yáñez, D. F. (2020). On Augmented Reality for the Learning of 3D-Geometric...
  • Fu, S., Niu, Y., Kang, R., Tong, L., Wang, Y., Xiao, Q., & Xie, Z. (2025). Application of Handheld Augmented Reality in Nursing Education:...
  • Garzon, P., & Inga, E. (2023). Advancing primary education through active teaching methods and ICT for increasing knowledge. Sustainability,...
  • Henssen, D. J. H. A., van den Heuvel, L., De Jong, G., Vorstenbosch, M. A. T. M., van Cappellen van Walsum, A.-M., Van den Hurk, M. M., Kooloos,...
  • Higgins, J. P. T., Altman, D. G., Gøtzsche, P. C., Jüni, P., Moher, D., Oxman, A. D., Savović, J., et al. (2011). The Cochrane Collaboration’s...
  • Higgins, J. P. T., Thompson, S. G., Deeks, J. J., & Altman, D. G. (2003). Measuring inconsistency in meta-analyses. BMJ, 327(7414), 557....
  • Ho, K. K. W., Ye, S., Chiu, D. K. W., & Sekiguchi, T. (2023). Digital Transformation in Remote Learning and Work—An Externality of the...
  • Hönemann, K., Konopka, B., Prilla, M., & Wiesche, M. (2025). A Comparative Study of Handheld Augmented Reality Interaction Techniques...
  • Honicke, T., & Broadbent, J. (2016). The inf luence of academic self-efficacy on academic performance: A systematic review. Educational...
  • Hwang, G.-J., Wu, C.-H., & Kuo, F.-R. (2013). Effects of Touch Technology-based Concept Mapping on Students’ Learning Attitudes and Perceptions....
  • Iatraki, G., & Mikropoulos, T. A. (2025). Using Immersive Augmented Reality to Teach Physics to Students With Intellectual Disabilities....
  • Ibrahim, A., Aulls, M. W., & Shore, B. M. (2016). Development, validation, and factorial comparison of the McGill Self-Efficacy of Learners...
  • Keller, J. M. (1983). Motivational Design of Instruction. In C. M. Reigeluth (Ed.), Instructional-design Theories and Models: An Overview...
  • Keller, J. M. (2010). Motivational Design for Learning and Performance: The ARCS Model Approach. Springer. https://doi. org/10.1007/978-1-4419-1250-3
  • Lampropoulos, G., & Kinshuk. (2024). Virtual reality and gamification in education: a systematic review. Educational technology research...
  • Lytvynova, S. H., & Soroko, N. V. (2023). Interaction in an Educational Environment with Virtual and Augmented Reality. Information Technologies...
  • McBain, K. A., Habib, R., Laggis, G., Quaiattini, A., Ventura, N. M., & Noel, G. P. J. C. (2022). Scoping review: The use of augmented...
  • Moreno-Guerrero, A.-J., Alonso García, S., Ramos Navas-Parejo, M., Campos-Soto, M. N., & Gómez García, G. (2020). Augmented Reality as...
  • Myung, S. K. (2023). How to review and assess a systematic review and meta-analysis article: a methodological study (secondary publication)....
  • Na, H., & Yun, S. (2024). The effect of augmented reality on K-12 students’ motivation: a meta-analysis. Educational Technology Research...
  • O’Connor, Y., & Mahony, C. (2023). Exploring the impact of augmented reality on student academic self-efficacy in higher education. Computers...
  • Osborne, M., & Mavers, S. (2019). Integrating Augmented Reality in Training and Industrial Applications. In 2019 Eighth International...
  • Ozdamli, F., & Hursen, C. (2017). An Emerging Technology: Augmented Reality to Promote Learning. International Journal of Emerging Technologies...
  • Page, M. J., McKenzie, J. E., Bossuyt, P. M., Boutron, I., Hoffmann, T. C., Mulrow, C. D., Shamseer, L., et al. (2021). The PRISMA 2020 statement:...
  • Pavlou, V., & Castro-Varela, A. (2024). E-Learning Canvases: Navigating the Confluence of Online Arts Education and Sustainable Pedagogies...
  • Penn, M. (2022). Pre-Service Natural Sciences Teachers’ Experiences of Virtual and Augmented Reality-Enhanced Inquiry Learning [Doctoral Dissertation,...
  • Redondo, B., Cózar-Gutiérrez, R., González-Calero, J. A., & Sánchez Ruiz, R. (2020). Integration of Augmented Reality in the Teaching...
  • Rueda Márquez de la Plata, A., Cruz Franco, P. A., & Ramos Sánchez, J. A. (2023). Applications of Virtual and Augmented Reality Technology...
  • Sáez-López, J. M., Cózar-Gutiérrez, R., González-Calero, J. A., & Gómez Carrasco, C. J. (2020). Augmented Reality in Higher Education:...
  • Sahin, D., & Yilmaz, R. M. (2020). The effect of Augmented Reality Technology on middle school students’ achievements and attitudes towards...
  • Sánchez-Meca, J., & Ato, M. (1989). Tratado de Psicología General I: Historia, Teoría y Método. In J. Arnau & H. Carpintero (Eds.),...
  • Shakirova, N., Berechikidze, I., & Gafiyatullina, E. (2024). The effects of immersive AR technology on the environmental literacy, intrinsic...
  • Sijimol, C. G. (2024). Critical Review on the Impact of ICT Among Undergraduate Students. International Journal of Business Data Communications...
  • Simón-Sánchez, M.-T., & Fernández-Sánchez, M.-R. (2023). Tecnologías emergentes para el proyecto de educación digital:: una revisión sistemática...
  • Soriano-Sánchez, J.-G., & Jiménez-Vázquez, D. (2023). Las ventajas del uso de la realidad aumentada como recurso docente pedagógico. Revista...
  • Soriano-Sánchez, J. G. (2025). The Impact of ICT on Primary School Students’ Natural Science Learning in Support of Diversity: A Meta-Analysis....
  • Soriano-Sánchez, J. G., & Jiménez Vázquez, D. (2025). Trascendencia de la realidad aumentada en la motivación del aprendizaje en educación...
  • Soriano-Sánchez, J. G., Quijano-López, R., & Saavedra Regalado, M. S. (2025). Methodological Strategies to Enhance Motivation and Academic...
  • Sweller, J., van Merrienboer, J. J. G., & Paas, F. G. W. C. (1998). Cognitive Architecture and Instructional Design. Educational Psychology...
  • Tarng, W., Ou, K.-L., Lu, Y.-C., Shih, Y.-S., & Liou, H.-H. (2018). A Sun Path Observation System Based on Augment Reality and Mobile...
  • Uchida, A., Michael, R. B., & Mori, K. (2018). An Induced Successful Performance Enhances Student Self-Efficacy and Boosts Academic Achievement....
  • Van Eck, N., & Waltman, L. (2010). Software survey: VOSviewer, a computer program for bibliometric mapping. Scientometrics, 84(2), 523-538....
  • Xu, W.-W., Su, C.-Y., Hu, Y., & Chen, C.-H. (2022). Exploring the Effectiveness and Moderators of Augmented Reality on Science Learning:...