Enhancing students' learning achievements, self-efficacy, and motivation using mobile augmented reality

BackgroundThis paper examines the use of augmented reality (AR) as a concept-association tool in schools, with the aim of enhancing primary school students' learning outcomes and engagement. Conflicting findings exist in previous studies regarding the cognitive load of AR-enriched learning, with some reporting reduced load and others indicating increased demand and poorer performance. Understanding these implications is essential for effectively leveraging AR in education. The study offers a fresh perspective on the potential of AR technology in improving educational experiences.ObjectivesThe primary goal of this research was to evaluate the effectiveness of an AR-assisted concept-association strategy for improving essential knowledge acquisition and skills outcomes, increasing cognitive load, and increasing self-efficacy and learning motivation among primary school students.MethodsA quasi-experimental design with a control group was employed to investigate the effectiveness of the intervention.Results and ConclusionsThe results demonstrate that the implementation of the AR-assisted concept-association strategy effectively enhanced essential knowledge acquisition and skills outcomes, increased cognitive load, and increased self-efficacy and learning motivation among primary school students. These findings highlight the potential of AR technology to improve the learning experience and engagement of primary school students. The study contributes to the existing literature on the effectiveness of AR technology in education, suggesting future research directions. Ultimately, it offers a practical solution for improving the learning experience by presenting a new approach for teaching using AR technology. What is currently known about this topic Augmented reality (AR) technology has been increasingly explored in educational settings. Previous research has shown that AR can enhance learning outcomes and engagement among students. AR applications have the potential to serve as concept-association tools to improve the learning experience.What this paper adds This paper investigates the effectiveness of using an AR application as a mobile concept-association tool in school settings. The study demonstrates that the AR-assisted concept-association strategy effectively enhances knowledge acquisition, skills outcomes, cognitive load, self-efficacy, and learning motivation among primary school students. The findings highlight the potential of AR technology in improving learning experiences and engagement for primary school students. The study offers practical implications for integrating AR technology into educational settings, and suggests avenues for future research in this area.Implications for practice and/or policy Incorporating AR applications as concept-association tools can enhance learning outcomes and engagement in primary school settings. AR technology can be used to increase cognitive load, and to increase self-efficacy and motivation among students. Educators and policymakers should consider integrating AR technology into teaching practices to improve the overall learning experience. Future research and exploration should be conducted to understand the full potential and limitations of AR technology in education.