| | Principles of Mechanics, Thermodynamics, Fluid Mechanics, Electricity and Magnetism, Circuit Analysis, and Optics | First-year courses |
| | Mechanical and Electrical Oscillations, Sound Waves | Second year |
| | Principles of the Special Theory of Relativity, Particle-Wave Duality, Atomic Structure, Shreodinger Wave Mechanics in One Dimension. Separation of Variables and the Hydrogen Atom Solution | second year |
| | Principles of Atomic and Molecular Physics, Solid State Physics, Nuclear Physics, and Elementary Particle Physics | second-third year |
| | Wave Equation, Postulates of Quantum Mechanics, Eigenfunctions and Eigenvalues, One-Dimensional Problems, The General Structure of Quantum Mechanics and Operator Methods, Schrodinger Equation in 3-Dimensions | Third Year |
| | Spin and Orbital Angular Momentum States, Identical Particles, Time-Independent and Time-Dependent Approximation Methods in Quantum Mechanics and Applications | 4th year |
| | A first course in Mechnics for Physics Majors | 3rd year |
| | Non-Inertial Frames, Rigid Body Motion, Lagrangian Mechanics and Applications | 4th Year |
| | A course on the statistical foundations of thermal physics | 3rd year |
| | Structure of Solids, Crystal Binding, Phonon vibrations and thermal properties of solids, Transport in Solids | 4th year |
| | A Graduate course in Quantum Mechanics covering topics such as: Scattering Theory, Vector Space and Matrix Mechanics, Approximation Methods, Relativistic Equation | Graduate Course |
| | A Graduate Course on Statistical Mechanics covering topics such as: Phase space and enumeration of micro-states, Micro canonical, Canonical and Grand Canonical Ensembles, Ideal Gases, Fermi Systems, Bose Systems | Graduate Course |
| | A Graduate Course on Classical Mechanics covering topics such as: Lagrangian Dynamics, Rigid Body Motion, Small Oscillations | Graduate Course |
| | A Graduate Course on Solid State Physics covering topics as: The free-independent electron model, Structure of Solids, Interaction of Electrons with periodic potential and Band Structure of Solids | Graduate Course |
| | A course on the Special Theory of Relativity, Lorentz Transformations, Space-time, and Dynamics | 3rd Year |
| | A series of specialized courses involving Advance topics on: Data Analysis, Structural and Magnetic Properties of Solids, Hyperfine Interactions in Solids | Graduate Courses |
| | Practical Physics Courses ranging from Freshman Physics, to advanced and graduate level courses involving specially designed experiments to train the students for future research work | All years |