Stanford’s Physics program prepares students to investigate the fundamental laws of nature and apply them to modern problems. These project ideas combine theory, lab experimentation, and computational techniques across fields such as quantum physics, optics, cosmology, and thermodynamics.
Quantum Tunneling Simulation Using Python and Schrödinger's Equation
Design and Calibration of a Homemade Spectrometer for Light Analysis
Numerical Study of Black Hole Thermodynamics
Simulation of the Double-Slit Experiment Using Quantum Algorithms
Measuring the Fine Structure Constant Using Zeeman Effect
Cosmic Ray Detection with a Custom-Built Cloud Chamber
Entropy and Information Theory in Statistical Mechanics
Magnetic Levitation System Based on Meissner Effect
Modeling Orbital Dynamics in Exoplanet Systems
Design of an Interferometer for Gravitational Wave Detection
Laser-Based Optical Communication and Modulation Systems
Energy Band Gap Determination Using UV-Vis Spectroscopy
Monte Carlo Simulation for Radiation Shielding Materials
Chaos Theory Modeling in a Driven Pendulum System
Wavefunction Visualization of a 2D Quantum Well
Real-Time Temperature Control System for Thermodynamics Labs
Experimental Verification of Faraday’s Law with Arduino Setup
Relativistic Effects in GPS Satellite Synchronization
Design of a DIY Particle Accelerator for Educational Purposes
Application of Machine Learning in Astrophysics Data Classification
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