Units, dimensions, measurements in physics. Position, velocity, acceleration, motion diagrams. Evaluation of kinematic quantities from motion diagrams. Vectors, motion in two dimensions, circular motion. Mass, linear momentum, center of mass, collisions, conservation of linear momentum. Force as momentum current, laws of forces, Newton's axioms. Rotation, angular displacement, angular velocity, angular acceleration. Angular momentum, conservation of angular momentum, torque, moment of inertia, central forces. Work, kinetic energy, power, work-kinetic energy theorem. Potential energy, conservation of mechanical energy, potential energy diagrams (spring, gravitation, Coulomb).
Molecular model of ideal gas, temperature, equation of state, specific heat, degree of freedom, Boltzmann's distribution law, entropy, reversible and irreversible processes, heat engines,
simple and coupled oscillations, normal modes of molecules, waves, quantities describing waves, superpositions of waves, standing waves, wave pockets, group velocity, interference, diffraction, matter waves,
Molecular model of ideal gas, temperature, equation of state, specific heat, degree of freedom, Boltzmann's distribution law, entropy, reversible and irreversible processes, heat engines,
simple and coupled oscillations, normal modes of molecules, waves, quantities describing waves, superpositions of waves, standing waves, wave pockets, group velocity, interference, diffraction, matter waves,
- Oktató: Somogyi Gábor
- Oktató: Trencsényi Réka Eszter
- Oktató: Trócsányi Zoltán