1.  Physical quantities: Magnitude, value, unit, dimension. Main SI units.
2.  Kinematics: Position, coordinates, velocity, speed, acceleration, movements
    straight line, curved, circular
3.  Dynamics_I: Linear momentum, mass, force, Newton's laws of motion (inertia,
    force, action and reaction)
4.  Dynamics_II: Impuls of force, mechanical work, power 
5.  Dynamics_III: Rotation: Torque, moment of inertia, angular momentum
6.  Gravitation: Kepler's laws, Newton's gravitation l, principle of 
    superposition
7.  Conservative fields, definition, existence of potential energy and 
    potential energy
8.  Elasticity and fracture: stress, strain, stress vs strain, Hooke's law
9.  Fluids, Hydrostatics: pressure vs. depth, Archimede's law
10. Electostatics_I: charge, electrostatic force, e. Field, Coulomb law, Gauss
    law, work in e. field
11. Capacity, capacitors, dielectrics
12. Electrokinetics: electric current, voltage, resistance, power
13. Magnetism: magnetic field, induction, sources of m. field, behavior of
    current element in m. field, Lorentz law, electromagnetism
14. Optics: Oscilations, waves, Huygen's law, Fermat's principle, limits of 
    Geometric optics,  reflection, refraction, diffraction, display by thin
    lens
15. Conservation in Nature, charge, mass, momentum, angular momentum, energy 

Students should be able to:
 . describe the main topics in the framework of the particular question
 . give simple examples and solve simple problems, both to show they understand
   the matter well