The impact of robotics on STEM education: Facilitating cognitive and interdisciplinary advancements

Abstract

This paper investigates the transformative role of robotics in enhancing STEM education by improving cognitive skills, fostering interdisciplinary learning, and bridging the gap between theory and practice. Through the analysis of various educational settings, the study highlights the significant enhancements in students problem-solving abilities, engagement, and application of scientific principles via robotics. We present quantitative evidence and case studies that showcase the impact of robotics on boosting analytical skills, increasing student motivation, and enhancing practical knowledge application. The research underscores robotics as a critical educational tool, capable of adapting to diverse teaching environments and contributing to educational equity and innovation worldwide. This integration not only nurtures a deeper understanding of STEM fields but also prepares students for future challenges in a technologically advanced world.