Coulomb s Law, Electric Field, Gauss s Law, Electric Potential, Electrostatic Fields in Matter (Conductors, Insulators, Dielectrics), Capacitors, Current and Resistance, DC Circuits, Magnetic Fields, Biot Savart s Law, Ampere s Law, Electromagnetic Induction, Faraday s Law, Inductance and Coils, AC Circuits, Maxwell s Equations and Electromagnetic Waves, Geometric Optics: Reflection, Refraction, Mirrors, Lenses, Prisms, Optical Instruments: Eye, Camera, Telescopes, Wave Optics: Interference, Diffraction, Polarization, Resolving Power of Optical Instruments
- Teacher: Ιωάννα Ζεργιώτη
ECTS : 4
Language : el
Learning Outcomes : Upon successful completion of the course, the student develops skills and is able to: • understand the basic and critical points of the course. • understand applications in the specific fields. • Use the knowledge gained to determine basic elements, analyze and calculate. • Know the laboratory environment and collaborate with fellow students in the context of laboratory exercises. • Have understood the concept of the source of a field and the relationship of the sources with the basic quantity of the intensity of a field. • Be able to understand the principles of geometric optics and optical systems.