Abstract
This study presents a systematic review of the role of Arduino-assisted robotics coding
applications in enhancing physics learning. A comprehensive search of the Education Resources
Information Center (ERIC) database identified 175 studies, from which twenty met the inclusion criteria for
in-depth analysis. The review critically examined the impact of this intervention on various student
outcomes, including computational thinking, programming self-efficacy, problem-solving skills, and
creativity. The findings revealed that Arduino-assisted robotics coding significantly improved these
competencies, contributing to enhanced student engagement and skill development. However, the
intervention did not yield significant improvements in academic performance, primarily due to the lack of
sustained and continuous implementation in classrooms. To address this limitation, the study recommends
the integration of Arduino-assisted robotics coding into school curricula, ensuring long-term application to
maximize its educational benefits. These findings underscore the need for structured and consistent use of
robotics coding in physics education to promote holistic student development.