Department of Applied Mathematics
Linear differential equations and their systems, differential calculus of functions of several real variables. Riemann integral in Rn. Line and surface integrals.
Department of Applied Mathematics
Electric field. Electric current. Magnetic field. Electromagnetic field. Optics. Basics of solid-state physics.
Department of Applied Mathematics
Electric field. Electric current. Magnetic field. Electromagnetic field. Optics. Basics of solid-state physics.
Department of Applied Mathematics
Electric field. Electric current. Magnetic field. Electromagnetic field. Optics. Basics of solid-state physics.
Department of Applied Mathematics
Differential geometry of curves - parameterization, the arc of the curve, torsion and curvature, Frenet`s trihedron. Kinematics - a curve as a trajectory of the motion, the velocity, and acceleration of a particle moving on a curved path.
Department of Applied Mathematics
Kinematics, dynamics, Newton's laws, force fields, mechanics of continuum, thermodynamics, introduction to electrostatics and electric current.
Department of Applied Mathematics
Solving problems on electric and magnetic field, electromagnetic field, optics and basics of solid-state physics.
Department of Applied Mathematics
Solving problems on kinematics, particle dynamics, dynamics of particle systems and rigid body. Continuum mechanics, thermodynamics.