Columbia University’s Physics program encourages analytical thinking, experimentation, and computational modeling. These project ideas cover core areas like quantum mechanics, relativity, particle physics, and astrophysics, offering opportunities for independent research and exploration of fundamental physical laws.
Quantum Entanglement and Its Role in Future Communication
Simulating Black Hole Thermodynamics Using Python
Gravitational Lensing and Dark Matter Mapping
Experimental Measurement of Muon Decay
Theoretical Foundations of Time Travel in Relativity
Higgs Boson and the Standard Model of Particle Physics
Wave-Particle Duality and the Double-Slit Experiment
Cryogenics and Superconductivity: Practical Applications
Simulating Orbital Mechanics for Satellite Trajectories
Acoustic Levitation and Standing Wave Phenomena
Chaos Theory in Classical Mechanics: Pendulum Systems
Magnetohydrodynamics in Solar Flare Studies
Building a DIY Cloud Chamber to Visualize Radiation
Dark Energy: Observational Evidence and Theoretical Models
Quantum Computing and Qubit Decoherence Studies
The Physics Behind MRI: Nuclear Magnetic Resonance
Plasma Physics in Fusion Energy Research
Computational Fluid Dynamics Using Navier-Stokes Equations
The Doppler Effect in Astronomy and Everyday Use
Energy Quantization in a Particle in a Box Model
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