The BS in Physics at the University of Florida provides students with rigorous training in classical mechanics, quantum physics, electromagnetism, and thermodynamics, supported by advanced laboratory and computational work. With access to cutting-edge research in astrophysics, condensed matter, and particle physics, students are prepared for careers in research, engineering, data science, and graduate study. The program emphasizes problem-solving, analytical thinking, and experimental technique.
Design and construction of a muon detection chamber using scintillators and photomultiplier tubes
Simulation of planetary orbits using numerical integration and gravitational modeling in Python
Experimental determination of Planck’s constant using the photoelectric effect and LED light sources
Study of superconductivity in YBCO ceramics and measurement of critical temperature under varying fields
Analysis of thermal expansion in composite materials for aerospace applications
Design of a tabletop interferometer to measure small wavelength shifts using laser sources
Quantum tunneling probability modeling using Schrödinger equation solvers in MATLAB
Investigation of electromagnetic shielding effectiveness in various household materials
Construction of a DIY spectroscope and analysis of stellar spectral lines for elemental identification
Study of acoustic resonance in musical instruments and its mathematical modeling
High-altitude balloon experiment measuring atmospheric radiation and pressure gradients
Simulation of quantum harmonic oscillators using matrix mechanics and visual output
Application of Fourier transforms to filter and interpret gravitational wave data
Study of optical polarization and phase shifts using birefringent crystals
Development of a smartphone-based accelerometer lab for real-time motion analysis
Characterization of damping forces in pendulum motion using video analysis
Magnetohydrodynamic flow simulation using finite element methods
Modeling blackbody radiation curves and fitting observed astronomical data
Experimental verification of conservation laws using motion sensors and collision carts
Implementation of Monte Carlo simulations for radioactive decay and nuclear statistics
Discover how the universe works by exploring the principles that govern matter and energy.
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