A compelling example comes from an AR-based system used to teach geometry, where students experienced a 39.7% improvement in their test scores. This increase was recorded after the students in the experimental group used AR tools, which allowed them to interact with and visualize geometric shapes in a three-dimensional space. In contrast, the control group, which used traditional teaching methods, showed only a 17.2% improvement.
The study highlighted that AR makes abstract concepts more concrete, fostering deeper comprehension, which is essential for subjects like geometry (Arslan et al., 2021).
This led to a 25% increase in test scores compared to video lectures alone. The combination of visual learning with hands-on AR activities allowed students to engage more effectively with the material. Feedback from students in the study was overwhelmingly positive, with many expressing that the AR experience made learning more engaging and intuitive (Kaliyaperumal et al., 2021).
By visualizing abstract concepts in a virtual, yet tangible, environment, students can manipulate and interact with content in ways that traditional methods, such as textbooks or flat images, cannot provide. AR not only improves comprehension but also boosts student motivation and engagement, making learning a more enjoyable and effective experience.