Research

In addition to exposing me to structured academic inquiry, my research in physics, mathematics, engineering, and business has given me practical expertise in construction and experimentation. Each endeavor, which has included studying pendulum dynamics, financial trends, spring-mass systems, and racetrack geometry, has improved my curiosity and capacity to delve into intricate concepts.

Kapitza Pendulum

In the school lab, I studied and constructed a functional model of Kapitza's pendulum, an inverted pendulum stabilized by vertical oscillations. My knowledge of mathematics, physics, and mechanics has increased as a result of this research, which showed how even basic systems can disclose intricate and beautiful motion principles.

Daytona International Speedway

I used trigonometry and ellipse segments to model the Daytona International Speedway in order to determine its length. I showed how mathematics can accurately describe real-world structures by using GeoGebra for mapping and coming up with an approximation that was astonishingly close to the official circuit length.

Twitter Rebrand to "X"

I performed a strategic and financial analysis of Twitter's rebranding to X, comparing changes in user engagement and profitability before and after the redesign using methods such as the Ansoff Matrix. I learned how to apply theoretical business models to actual situations and analyze data to make insightful deductions from this assignment.

Spring-Mass System on an Incline

I looked into how the tilt of the board to which a spring is mounted affects its extension. I investigated the connection between tension, gravitational components, and Hooke's Law by methodically changing the angle and taking measurements, obtaining practical experience in experimental design and data analysis.