Understand and apply the basic laws of geometrical optics, mechanics, oscillatory motion and waves, as well as electromagnetism. Understand mathematical methods and physical laws applied in geodesy and geoinformatics.
Apply knowledge of mathematics and physics for the purpose of recognizing, formulating and solving of problems in the field of geodesy and geoinformatics.
Exercise appropriate judgments on the basis of performed calculation processing and interpretation of data obtained by means of surveying and its results.
Take responsibility for continuing academic development in the field of geodesy and geoinformatics, or related disciplines,and for the development of interest in lifelong learning and further professional education. 1. Derive and apply the equations of geometrical optics.
2. Describe the motion by vectors of position, velocity and acceleration.
3. Apply Newton's laws of motion.
4. Describe the motion of the gyroscopes.
5. Derive and apply the Kepler's laws.
6. Derive the general expression for the gravitational potential energy and define the potential and equipotential surface.
7. Describe and compare the simple and physical pendulum.
8. Describe the harmonic waves.
9. Describe the electric field, electric potential difference, and electric current; describe the magnetic field of a current loop.
10. Describe the electromagnetic induction
