Available courses

This course details circuit theory and diode circuits.

This course covers the fundamentals of quantum mechanics and its applications to atomic and molecular systems. Wave mechanics and one-dimensional wave mechanics are reviewed.  The energy eigenvalue equation is solved for a number of important cases, including particle in a box and the harmonic oscillator. 

This course is aimed to introduce the foundations of quantum statistics, theory of phase transitions and foundations of quantum mechanics together with problems.

This course covers superconductivity and nano science.

The course covers different aspects of digital electronics and instrumentation. Digital electronics addresses the working mechanism and design guidelines of different combinational, sequential circuits and their role in digital system design. The instrumentation includes both the electronic and optical aspects. The use of electronic systems for the measurement of electrical and non-electrical quantities is detailed under electronic instrumentation. The overview of fiber optic communication is detailed, along with the discussions on the components that facilitate communication.

This course gives an introduction to digital electronics. The course details number systems, logic gates,  arithmetic circuits and sequential circuits.

This course provides an introduction to solid state physics, including crystal structure, magnetic properties of materials, and superconductivity. By the end of the semester, students will have an understanding of the basic concepts and some important phenomena in solid state physics.

Course PH231 Quantum Mechanics presents a more insightful discussion on Quantum Mechanics. It presents a detailed discussion on Angular momentum. The course also covers relativistic Quantum Mechanics.