Assistant Professor – Department of Physics, Govt. DAV College Koraput, Odisha, India
(Aug 2023 – Present)
Taught undergraduate courses according to CBCS and NEP-2020 syllabus, including Classical Mechanics, Quantum Mechanics, Solid State Physics, Electricity and Magnetism, Electrodynamics, and Mathematical Physics (I, II, and III) to B.Sc. students.
Designed and delivered lectures combining conceptual theory with real-world applications and problem-solving techniques.
Conducted practical laboratory sessions on teaching-related papers, guiding students in hands-on experiments and analysis.
Developed question banks, assignments, and semester assessments aligned with the CBCS and NEP-2020 framework.
Utilized digital tools such as SCILAB simulations, C program, and interactive quizzes to enhance student engagement.
Mentored students in academic projects.
Preparing students for competitive exams like JAM, JEST, TIFR, GATE, CUET, and CPET.
Received positive feedback from students on clarity, approachability, and effectiveness in explaining difficult concepts.
Teaching Plan
At both the undergraduate and postgraduate levels, I could handle courses focused on Theoretical and Computational Physics, bridging fundamental concepts with modern computational techniques. At the UG level, the course would emphasize classical mechanics, electromagnetism, quantum mechanics, and statistical physics, complemented by practical applications through computational simulations. For the PG level, I would propose an advanced course that delves into areas such as quantum field theory, condensed matter physics, and advanced computational methods, with a strong focus on interdisciplinary applications, research methodologies, and problem-solving skills that prepare students for both academic and industry roles. I would aim to foster critical thinking, analytical skills, and a deep understanding of the physics that governs the natural world.
More specifically, I can teach the following fundamental and advanced courses at the UG and PG.
Classical Mechanics
Quantum Mechanics
Solid State Physics
Electricity and Magnetism
Electrodynamics
Advanced Quantum Mechanics (Quantum Field Theory)
Advanced Condensed Matter Physics
Machine Learning Application in Material Science
Computational Material Science (Density Functional Theoretical approach and its hands-on training with different programming languages such as C, C++, SCILAB, MATLAB, Fortran, and Python.
Educational Impact: Aim to have a transformative impact on our students through effective teaching and mentorship. This includes developing a reputation for inspiring and guiding students, both in and out of the classroom. Curriculum Development: Contribute to the development of cutting-edge curricula that prepare students for future challenges and equip them with relevant skills.