| Semester | Faculty | Subject | Topic |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Crystal Symmetry |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Kronig-Penney model |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Lattice and Basis |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Lattice and crystal Structure |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Thermodynamics of superconductivity |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Fluxon_superconductivity |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Introduction_superconductivity |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Dielectric 1 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Dielectric 2 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | BCS Theory |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Application of BCS Theory |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | AC Polarizability |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Superconductivity_Problem and solution |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Bohr wheeler theory |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Deuteron |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Exchange and Tensor Forces |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Liquid drop model |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Nuclear Reaction |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Nuclear Scattering |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Nuclear Scattering |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Shell model |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Alpha Decay |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Beta Decay 1 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Beta Decay 2 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Beta Decay 3 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Beta Decay 4 |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Gamma Decay |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Determination of nuclear properties |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | General properties of Nucleai |
| 1 | Dr. Sandip Kumar Giri | PHYSICS(PG) | Electric moments of Nuclei |
| 2 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Electrostatic |
| 2 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Electrostatic |
| 2 | Mrs. SUPRIYA PRAMANIK | PHYSICS(HCC) | dielectric properties |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Cauchy Integral Formula |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Cauchy Integral Formula_Introduction |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Taylor and Laurent Series |
| 3 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSC) | magnetic field |
| 3 | Mrs. SUPRIYA PRAMANIK | PHYSICS(SEC) | basic electricity principal |
| 3 | Mrs. SUPRIYA PRAMANIK | PHYSICS(GGE) | magnetic field |
| 3 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Electronics |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Bessel's Function |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Legendre Equation-2 |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Legendre Equation-1 |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Series Solution |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Frobenius method-2 |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Frobenius Method -1 |
| 3 | Mr. ANIKET BANERJEE | PHYSICS(SEC) | Electrical circuits & network skills - Operation of transformer |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Fourier Transform |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Fourier Series-IV |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Fourier Series-III |
| 3 | Mr. ANIKET BANERJEE | PHYSICS(HCC) | Introduction to the thermodynamics |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Fourier Series-2 |
| 3 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Fourier Series 1 |
| 4 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Electronics |
| 4 | Mrs. SUPRIYA PRAMANIK | PHYSICS(SEC) | cathode ray oscilloscope |
| 4 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | PN Diode and rectifier |
| 4 | Mrs. SUPRIYA PRAMANIK | PHYSICS(GGE) | interference of light |
| 4 | Mr. ANIKET BANERJEE | PHYSICS(HCC) | Modern Physics - Nuclear Structure & liquid drop model |
| 4 | Mr. ANIKET BANERJEE | PHYSICS(SEC) | Basic instrumentation skills - Electronic voltemeter |
| 4 | Dr. RAJASREE HATI | PHYSICS(HCC) | Analog Electronics |
| 4 | Dr. RAJASREE HATI | PHYSICS(HCC) | Analog Electronics |
| 4 | Dr. RAJASREE HATI | PHYSICS(HCC) | Analog Electronics |
| 4 | Dr. RAJASREE HATI | PHYSICS(HCC) | Analog Electronics |
| 4 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Semiconductor Physics |
| 5 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSE) | newtonian mechanics |
| 5 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSE) | lagrengian and hamiltonian |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Application of Superconductivity |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Introduction to superconductivity |
| 5 | Dr. BAPPA SONA KAR | PHYSICS(HCC) | Solid state physics |
| 5 | Mrs. SUPRIYA PRAMANIK | PHYSICS(SEC) | FOSSIL FUELS AND ALTERNATIVE SOURSES OF ENERGY |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Lattice Specific heat |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Lattice vibration_diatomic |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Lattice Vibration_monoatomic |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | X-ray diffraction-II |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | X-ray diffraction |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Reciprocal lattice |
| 5 | Mr. ANIKET BANERJEE | PHYSICS(SEC-NEP) | Radioactive decay |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Crystal Structure |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Crystal symmetry |
| 5 | Dr. Sandip Kumar Giri | PHYSICS(HCC) | Lattice & Basis |
| 6 | Mr. ANIKET BANERJEE | PHYSICS(DSE) | Introduction to signals -1 |
| 6 | Mrs. SUPRIYA PRAMANIK | PHYSICS(SEC) | photoelectric effect , compton effect |
| 6 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSE) | digital pulse modulation |
| 6 | Dr. Mrityunjoy Kumar Das | PHYSICS(HCC) | Measurement of the temp. of the sun and some problems |
| 6 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSE) | mobile telephony system |
| 6 | Dr. Mrityunjoy Kumar Das | PHYSICS(HCC) | Deduction of Planck’s law and the comparison with experimental results and other theoretical results. Deductions of Wien’s law, Rayleigh-Jeans law, Wien’s displacement law and the Stefan’s law from the Planck’s law |
| 6 | Dr. Mrityunjoy Kumar Das | PHYSICS(HCC) | Energy density spectrum of black body radiation. Wien’s law and Rayleigh-Jeans law and Wien’s displacement law. Concept of ultraviolet catastrophy. Discussion of discrepancy bet. theory and the expt. result |
| 6 | Dr. Mrityunjoy Kumar Das | PHYSICS(HCC) | Energy density of diffuse radiation, pressure of diffuse radiation . Stefan’s law. |
| 6 | Mrs. SUPRIYA PRAMANIK | PHYSICS(DSE) | satellite communication |
| 6 | Dr. Mrityunjoy Kumar Das | PHYSICS(HCC) | Idea of temp. radiation and hence the concept of black body. Kirchoff’s law and its importance. |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |
| 6 | Dr. RAJASREE HATI | PHYSICS(DSE) | Communication Electronics |