This course gives an overview of important concepts in classical dynamics, thermodynamics, electromagnetism, quantum physics, atomic physics, and special relativity. Emphasis is placed on demonstrating key phenomena using experiments, and in developing skills for quantitative problem solving.

Basic topics in classical as well as modern physics, interplay between basic research and applications.

This is a one-semester course introducing students into the foundations of modern physics. Topics include electric and magnetic field, electric current, magnetism, Maxwell's equations, electromagnetic waves and ray optics. Selected topics with important applications in industry will also be considered.

This is a one-semester course introducing students into the foundations of Modern Physics. Topics include electricity and magnetism, light, oscillations and waves with Doppler effect. Selected topics with important applications in industry will also be considered.

This course will cover the basic topics in Physics and will show/display/explain with a variety of experiments the most important physical effects. The course will address classical as well as modern physics, and the interplay between basic research and applications.

This is a two-semester course introducing students into the foundations of Modern Physics. Topics include electricity and magnetism, light, waves, quantum physics, solid state physics, and semiconductors. Selected topics with important applications in industry will also be considered.

This course will cover the basic topics in Physics and will show/display/explain with a variety of experiments the most important physical effects. The course will address classical as well as modern physics, and the interplay between basic research and applications.

The interaction of light with the condensed matter is the basic idea and principal foundation of several experimental spectroscopic methods. This lecture is devoted to the presentation of those experimental methods and techniques, which allow the study of the electrodynamic response of solids. I will also discuss recent experimental results on materials of high interest in the on-going solid-stat