| Courses | Units
|
| Electronics I | 3
|
| Electronics Laboratory I | 2
|
| Electronics II |
|
| Electronics Laboratory II |
|
| Special Topics |
|
| Nuclear Fission and Fusion |
|
| Methods of Research and Project |
|
| Special topics in Mathematical Physics |
|
| Non-Linear Optics |
|
| Fundamentals of Nuclear Fusion |
|
| Elementry Astronomy | 3
|
| Theoretical Foundations of Quantum Mechanics |
|
| Group Theory | 3
|
| Mathematical Physics III | 3
|
| Workshop | 1
|
| Solid State Physics I |
|
| Solid State Physics II | 3
|
| Nuclear Physics I | 4
|
| Nuclear Physics II | 3
|
| Nuclear Physics Laboratory | 1
|
| Modern Optics I |
|
| Modern Optics II |
|
| Vaccume Technology | 3
|
| Astronomy Project |
|
| Philosophy of Science | 2
|
| Reactor Physics I | 3
|
| Reactor Physics II | 3
|
| Detectors and Nuclear Measuring Devices | 3
|
| Radio Isotopes and their Applications | 3
|
| Laboratory Radio Isotopes | 1
|
| Laser Physics | 3
|
| Applied Optics | 3
|
| Spectroscopy | 3
|
| Applications of lasers | 3
|
| Plasma Physics I | 3
|
| Plasma Physics II |
|
| Introduction to elementary Particles | 3
|
| Astrophysics | 3
|
| Fluid Mechanics | 3
|
| Relativity | 2
|
| Laser Laboratory | 2
|
| Modern Physics II | 3
|
| Laser Spectroscopy |
|
| Quantum Electronics |
|
| Astronomical Instrumentation and Techniques |
|
| Astrophysics II |
|
| Computational Physics II |
|
| Modern Physics for engineering I | |
