Gas turbine engines are critical to the aviation industry, yet their intricate design, operation, and maintenance pose significant challenges for engineers and technicians to master. Traditional educational approaches often fall short in effectively conveying the dynamic principles and components of these complex machines. To address this gap, this project proposes an interactive educational application tailored to gas turbine engines. The application leverages advanced multimedia tools, including 3D models, infographics, comprehensive notes, and interactive quizzes, to create an engaging and immersive learning experience. This innovative approach enhances the understanding of engineering principles, making complex concepts more accessible to learners. The project’s impact spans multiple stakeholders: educational institutions can incorporate the application into their curriculum to improve student engagement and learning outcomes, while industry professionals can use it for continuous skill development, leading to enhanced operational efficiency and workplace safety. Furthermore, the application's design aligns with the growing demand for digital learning solutions in technical education, offering significant commercialization potential. The integration of cutting-edge technology with detailed educational content not only addresses the learning challenges associated with gas turbine engineering but also positions the application as a valuable tool for advancing knowledge and skills in both academic and professional settings. This project ultimately aims to empower users, foster innovation in learning, and contribute to improved safety and efficiency in the aviation industry.