From a young age, I have been captivated by the awe-inspiring engineering behind aircraft and possess an unwavering passion for contributing to the space industry. My journey into engineering began during my final year of high school when I embarked on a project aimed at preventing pediatric vehicular heat strokes. Leading a team of engineers, we developed an environmentally friendly alternative to traditional car air conditioning systems.Fueling my aerospace passion further, I collaborated with eight scientists and engineers to propose a groundbreaking method for mitigating biofilm growth on the International Space Station serving as Design and Fabrication team lead. Our comprehensive research encompassed fluid dynamics and material science, resulting in an 80% reduction in the cost of fluid simulations. Moreover, we proposed a method to reduce 10% in flow stagnation and a 15% decrease in biofilm accumulation. Additionally, I played a pivotal role in designing the test setup for the project, utilizing advanced software such as NX Siemens and AutoCAD. This endeavor garnered substantial recognition, earning us a $10,000 grant for our proposal and an additional $50,000 in SIF funding.Driven by my desire to share my engineering passion with others, I took the initiative to forge connections between NASA, my school, and the University of Texas at Dallas (UTD). Under the mentorship of the esteemed dean of Mechanical Engineering, I established a Micro-g NExT chapter. Through this platform, I organize workshops to cultivate students' technical skills and inspire them to think creatively, fostering a deep-seated passion for engineering.