The MSc program in Physics offers a deep dive into core topics like Classical Mechanics, Quantum Mechanics, Thermodynamics, and Astrophysics. It covers both theoretical concepts and practical applications in subjects such as Electronics, Biophysics, and Computational Physics. The program also includes elective options like Nano-scale Science, Molecular Spectroscopy, and Engineering Chemistry. Students gain expertise in various specialized fields, preparing them for research, academia, and industry roles.
Core Subjects for MSc in Physics
Subject Title
Subject Details
Classical Mechanics
Study of the motion of macroscopic objects like planets and spacecraft.
Biophysics
Concepts and theories related to biological systems.
Thermodynamics and Statistical Mechanics
Covers thermodynamic variables like temperature and pressure.
Optics & Atomic & Molecular Physics
The relationship between light and matter.
Quantum Mechanics
Study of light's behavior and properties at different scales.
Electromagnetism & Electronics
Concepts related to electromagnetic fields and electronics.
Condensed Matter Physics
Study of the properties of solids, such as structural and electromagnetic properties.
Quantum Computing
Exploring new ways to perform computing using quantum phenomena.
Astrophysics
Study of the cosmos and the universe.
Geophysics
Study of Earth and its environment.
Elective Subjects for MSc
Subject Title
Subject Details
Bioinformatics Applications for System Analysis
Gene therapy and bioinformatics applications.
Engineering Chemistry
Design and operation of chemical plants.
Nano-scale Science and Technology
Applications of nano-scale science and technology.
Introduction to Molecular Spectroscopy
Concept and applications of molecular spectroscopy.
Advanced Physical Methods in Chemistry
Theories and applications of advanced physical methods in chemistry.
Polymer Synthesis
Study of polymerization and polymer characterization.
Advanced Organic Chemistry
Spectroscopy, medicinal chemistry, and organic chemistry concepts.
Advanced Inorganic Chemistry
Theory and applications of inorganic chemistry principles.
Introduction to Molecular Thermodynamics
Principles of thermodynamics and energy distribution.
