This course is designed to be an introduction to the fundamental laws of kinematics, dinamics, mechanical waves and oscillatory motion.
Throughout this course stundents are introduced to the fundamental laws of the light propagation, basic optical elements, flud mechanics, heat transfer and thermodynamics, as well as elements of modern physics: quantum, atomic and nuclear physics.
The main goal of this course is to encourage students to build mathematical models of some more advanced and complex physical problems that play an important role in the field of contemporary electrical engineering.
Introducing the students to the fundamentals of quantum mechanics and statistical physics and its application in determining the electronic structure of semiconductors.
In this course students are introduced to the fundamentals of optical information transfer methods which are in the foundations of the recent generations of modern high bit-rate communication networks.
Introducing students to commponents, systems and techniques of signal processing in the high-bit-rate coherent optical communication systems.
