Teaching Experience
I : Undergraduate Level
1. Basic Physics I (Fundamentals of Physics, D. Halliday et. al.)
2. Basic Physics II (Fundamentals of Physics, D. Halliday et. al.)
3. Basic Physics III (Fundamentals of Physics, D. Halliday et. al.)
4. Mathematical Physics I (Mathematical Methods for Physicists, G. Arfken et. al.)
5. Mathematical Physics II (Mathematical Methods for Physicists, G. Arfken et. al.)
6. Analytical Mechanics I (Mechanics, K. Symon)
7. Analytical Mechanics II (Mechanics, K. Symon)
8. Thermodynamics (Heat and Thermodynamics, M. Zemansky)
9. Modern Physics (Fundamentals of Modern Physics, R. Eisberg)
10. Electronics I (Integrated Electronics, J. Millman and C. Halkias)
11. Electronics II (Integrated Electronics, J. Millman and C. Halkias)
12. Vacuum Technology (Modern Vacuum Practice, N. Harris)
13. Waves (Waves, F. S. Crawford)
14. Crystallography (Introduction to Crystallography, C. Hammond)
15. Solid State Physics (Introduction to Solid State Physics, C. Kittel)
16. Physics of Semiconductors (Physics of Semiconductors Devices, S. M. Sze)
17. English for Physics Students (Different Articles)
18. Electromagnetic I (Foundations of Electromagnetic Theory, J. R. Reitz, F. J. Milford, and R. W. Christy)
19. Electromagnetic II (Foundations of Electromagnetic Theory, J. R. Reitz, F. J. Milford, and R. W. Christy)
20. Workshop
21. Quantum Mechanics I (Quantum Physics, S. Gasiorowicz)
22. Quantum Mechanics II (Quantum Physics, S. Gasiorowicz)
II : Graduate Level
a) MSc Level
1. Advanced Solid State Physics I (Solid State Physics, N. Ashcraft and N. Mermin)
2. Advanced Solid State Physics II (Solid State Physics, N. Ashcraft and N. Mermin)
3. Classical Mechanics (Classical Mechanics, H. Goldstein)
4. Advanced Physics Lab
5. Special Subjects
6. Electrodaynamics I (Classical Electrodynamics, J. D. Jackson)
7. Advanced Quantum Mechanics I (Modern Quantum Mechanics, J. J. Sakurai)
8. Advanced Quantum Mechanics II (Modern Quantum Mechanics, J. J. Sakurai)
9. Theory and Technology of Optical Devices Manufacturing (VLSI Technology, S. M. Sze)
b) PhD Level
1. Condensed Matter Physics I (A Quantum Approach to Condensed Matter Physics, P. L. Taylor and O. Heinone)
2. Special Topics in Physics
3. Self Study (Different Articles)
4. Preparation and Characterization of Nanopatricles and Nanostructures (Nanoparticles and Nanostructured Films, J. H. Fendler)
5. Nanoparticles and Nanostructures (Nanostructurtes: Theory and Modeling, C. Delerue and M. Lannoo)
6. Wave scattering from rough surfaces (Theory of wave scattering from random rough surfaces, J. A. Ogilvy)
7. Physics of critical phenomena (Introduction to phase transitions and critical phenomena, H. E. Stanley)