Physics Projects

Physics governs everything from the vastness of the universe to the tiniest atomic scale. The double pendulum system exemplifies classical mechanics with its nonlinear dynamics and coupled equations of motion. Its chaotic behavior, highly sensitive to initial conditions, makes it a fascinating subject for exploring complex physical phenomena. Read more here.



Simulation method: Runge-Kutta 4th order

Reference of Equation of Motion of Double Pendulum

Derivation of Gaussian Beam under 2D space and 3D space

Oct 05 2021 Physics Research Project Python Electromagnetic Derivation

Derived and visualized Gaussian beam propagation in both 2D and 3D space, analyzing beam evolution and spatial characteristics. Read More

Particle-in-Cell Simulation of Phase-Matched High Harmonics Generation in Highly Ionized Plasmas

Jun 11 2021 Physics Research Project Python Electromagnetic Plasma Physics Numerical Simulation Particle-in-Cell Simulation High-Harmonic Generation

Simulated high harmonic generation (HHG) in laser-plasma using PIC to study phase matching and optimize laser/gas parameters for efficient short-wavelength light sources. Read More

One-Dimensional Simulation with the FDTD Method

Oct 20 2020 Physics Research Project Python Electromagnetic Numerical Simulation

Simulated electromagnetic wave propagation using FDTD in vacuum, dielectric, and lossy dielectric media with hard, soft, and absorbing boundary conditions. Read More

Vortex Dynamics in 2-dimensional Soap Film Turbulence

Jun 09 2020 Physics Course Project Group Work Fluid Dynamics Experimental Physics Data Analysis PIV method

Soap films form a quasi-2D fluid system with multi-scale vortices. Driven by electric fields, they exhibit complex turbulent behaviors. This study aims to observe how small boundary vortices evolve and merge into larger structures, and to analyze the spatiotemporal dynamics of soap films with varying geometries. Read More

Compound Pendulums

Dec 17 2019 Physics Course Project Group Work Classical Mechanics Experimental Physics Data Analysis

Studied flipping in a double pendulum and phase synchronization in coupled pendulums. Used video tracking and time-series analysis to examine energy transfer and motion dynamics. Read More

Eye Controlled Two-wheel Robot

Jun 06 2019 Physics Course Project Group Work Experimental Physics PID Controller Circuit Electrooculography

Designed a self-balancing robot controlled by EOG (electrooculography), using eyeball potential profiles to determine movement direction. Read More