The MIT undergraduate Physics program empowers students to understand the universe at the deepest level. These projects offer practical exposure to theoretical concepts in quantum mechanics, astrophysics, electromagnetism, and computational physics.
Quantum Entanglement Simulation Using Qiskit
Studying Blackbody Radiation with Python Modeling
Designing a DIY Michelson Interferometer
Electromagnetic Induction in Rotating Systems
Quantum Cryptography Protocol Implementation
Measurement of Gravitational Acceleration Using Arduino
Statistical Mechanics Model of Gases
Studying Orbital Motion Using Python and Unity
Analysis of Harmonic Motion and Resonance in Springs
Magnetic Field Mapping Using Hall Effect Sensors
Simulation of Relativistic Effects in Moving Frames
Building a Cloud Chamber for Particle Detection
Solar Cell Efficiency Analysis Based on Light Intensity
Design of a LIGO-Inspired Laser Interference Device
Cosmic Ray Detection with Scintillation Counters
Studying Thermoelectric Effects in Metals
Radio Telescope Construction and Signal Analysis
Quantum Tunneling Simulation Using Schrödinger Equation
Modeling Expansion of the Universe Using Hubble’s Law
Nonlinear Optics and Laser Beam Diffraction
Analyzing Patterns in Double-Slit Interference
Pendulum-Based Seismograph Design
Muons in the Atmosphere: Measurement and Decay
Thermal Conductivity Measurement of Materials
Constructing an Electromagnetic Railgun Model
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