Program Overview

Applied Physics Program

Courses Catalog

The Applied Physics Program offers a comprehensive range of courses, including:

• Compulsory courses:
  • PHY 211 Waves and Optics (2 Credits)
  • PHY 212 Modern Physics (2 Credits)
  • PHY 224 Electronics (2 Credits)
  • PHY 315 Introduction to Nanotechnology (2 Credits)
  • EPE 221 Measurements and Instrumentation (3 Credits)
  • CHM 211b Principles of Organic Chemistry (3 Credits)
  • CHM 221b Inorganic Chemistry (3 Credits)
  • CHM 312b Surface chemistry, colloids and catalysis (3 Credits)
  • PHY 326 Quantum Mechanics (2 Credits)
  • PHY 411 Quantum Mechanics II (2 Credits)
  • PHY 414 Electronic devices (3 Credits)
  • PHY 426 Quantum Materials and Devices (2 Credits)
  • PHY 327 Synthesis of nanomaterials (2 Credits)
  • PHY 213 Physics Lab (1) (2 Credits)
  • PHY 225 Physics Lab (2) (2 Credits)
  • PHY 316 Physics Lab (3) (2 Credits)
  • PHY 324 Physics Lab (4) (2 Credits)
  • PHY 415 Physics Lab (5) (2 Credits)
  • PHY 427 Physics Lab (6) (2 Credits)
  • EPE 221b Measurements and Instrumentations (3 Credits)
  • PHY 418 Physics of thin films (2 Credits)
  • PHY 329 Nanoparticles (2 Credits)
  • PHY 314 Solar Energy (2 Credits)
  • PHY 419 Nanomaterials for Energy production (2 Credits)
  • PHY 319 Computational Physics (2 Credits)
  • PHY 428 Magnetic nanoparticles (2 Credits)
  • PHY 313 Semiconductors (2 Credits)
  • PHY 412 Thermodynamics and Statistical Mechanics (3 Credits)
  • PHY 320 Biophysics (2 Credits)
  • PHY 312 Solid-State Physics (2 Credits)
  • PHY 328 Characterization of nanomaterials I (2 Credits)
  • PHY 416 Characterization of nanomaterials II (2 Credits)
  • PHY 421 Radiation Physics (2 Credits)
  • PHY 422 Statistical Physics (2 Credits)
  • PHY 426 Quantum Materials and Devices (2 Credits)
  • PHY 417 Nanophysics (2 Credits)
  • PHY 422 Statistical Physics (3 Credits)
  • PHY 429 Laser Physics (3 Credits)
  • PHY 317 Nuclear Physics (3 Credits)
  • PHY 498 Graduation Project I (1 Credits)
  • PHY 499 Graduation Project II (2 Credits)

About the Program

The Applied Physics Program is designed to provide students with a comprehensive education in the field of physics, with a focus on applied physics and nanotechnology. The program aims to equip students with the knowledge and skills necessary to pursue careers in research and development, industry, and academia.

Career Prospective

Graduates of the Applied Physics Program can pursue careers in a variety of fields, including:

• Research and development
• Industry
• Academia
• Government laboratories
• Private sector companies

Study Plan

The study plan for the Applied Physics Program is designed to provide students with a comprehensive education in the field of physics, with a focus on applied physics and nanotechnology. The program consists of a range of compulsory courses, as well as elective courses that allow students to specialize in specific areas of interest.

Facilities

The university provides a range of facilities to support the Applied Physics Program, including:

• State-of-the-art laboratories
• Advanced instrumentation and equipment
• Computer facilities and software
• Library and information resources