Learn the laws of thermodynamics and statistical interpretation of heat, entropy, and macroscopic properties.
Study the motion of fluids and gases, including applications to aircraft design, weather, and ocean currents.
Study nuclear structure, radioactivity, fission, fusion, and applications in energy and medicine.
Explore wave-particle duality, Schrödinger equation, and quantum states to understand the behavior of matter at atomic scales.
Advanced study of quantum mechanics combined with special relativity to describe elementary particles and their interactions.
Study stellar evolution, black holes, dark matter, and the origin and fate of the universe.
Explore superconductivity, magnetism, phase transitions, and emergent phenomena in condensed matter systems.
Master experimental design, data analysis, and modern measurement techniques used in physics research.
Study electric and magnetic fields, electromagnetic waves, and their unification through Maxwell's elegant equations.
Explore quarks, leptons, gauge bosons, and the fundamental forces described by the Standard Model of particle physics.
Study light propagation, interference, diffraction, and modern applications in lasers, fiber optics, and imaging.
Understand Einstein's theories of spacetime, time dilation, gravity, and the curvature of the universe.
Master Newton's laws, energy conservation, momentum, and rigid body dynamics for understanding motion and forces.
Learn numerical methods and simulations for solving complex physics problems using Python programming.
Understand crystal structures, band theory, and electronic properties of materials for semiconductors and devices.