M.Sc Physics postgraduate course syllabus and subjects prepare students to become research analysts or to work in healthcare, pharmaceutical companies, government hospitals, medical research labs, and environment protection companies. The M.Sc Physics curriculum includes topics such as mathematical methods, quantum mechanics, solid-state physics, atomic spectroscopy, relativity and cosmology, radiation theory, statistical mechanics, computer application in physics, astrophysics, and classical mechanics.

Semester Wise M.Sc Physics Syllabus 

M.Sc Physics course is divided into four semesters over the period of two years for students flexible learning. M.Sc Physics syllabus 2021 aims to prepare students for learning techniques and methods commonly used in energy industries.

Students study a wide range of matter, quantum optics, lasers, solid-state physics, materials science, high energy physics, and nonlinear optics throughout the curriculum. Additionally to the standard syllabus, students should take courses related to physics.

The following is the semester-wise M.Sc Physics syllabus: 

M.Sc Physics First Year Syllabus

Semester I

Semester II

Classical Mechanics


Solid-State Physics

Renewable Energy Sources

Mathematical Physics

Statistical Mechanics

Quantum Mechanics

Atomic Physics

Fundamentals of MATLAB



Advanced Quantum Mechanics


M.Sc Physics Second Year Syllabus

Semester III

Semester IV


Open Elective

Nuclear Physics

Specialization Subject

Specialization Subjects

Dissertation/Thesis - 2

Dissertation/Thesis - 1


M.Sc Physics Course Subjects 

M.Sc Physics subjects enable students to learn physics techniques that will help them overcome industrial challenges. M.Sc Physics course has a high reputation in the science field. Students who earn an M.Sc Physics course gain a thorough understanding of the skills and techniques used by physicists.

Semester-wise subjects in M.Sc Physics are designed to help students gain a deeper understanding of the subject and build their knowledge. M.Sc Physics syllabus includes both classroom theory and practical lab sessions to prepare students for advanced options.

The two-year program offers a greater variety of electives and academic core subjects. The M.Sc Physics subject list is as follows: 

  • Mathematical Methods
  • Quantum Mechanics
  • Solid State Physics
  • Atomic Spectroscopy
  • Relativity and Cosmology
  • Radiation Theory
  • Statistical Mechanics
  • Computer Application in Physics
  • Astrophysics
  • Classical Mechanics
  • Classical Electrodynamics
  • Electronics
  • Nuclear and Particle Physics
  • Advanced Optics
  • Atomic and Molecular Physics
  • Advanced Quantum Mechanics
  • Molecular Spectroscopy

M.Sc Physics Course Structure 

The M.Sc Physics program offers a variety of core and elective subjects. In the first year, students are introduced to basic fundamental subjects. During the second year, students study specific subjects related to their specialization.

Additionally, lab sessions enhance theoretical understanding. The curriculum for an M.Sc Physics degree exposes students to classical mechanics, biophysics, thermodynamics, and statistical mechanics, optics, atomic and molecular physics, quantum mechanics, electromagnetism and electronics, condensed matter physics, and classical mechanics.

The M.Sc Physics program prepares students for increased career responsibilities. A research project must be completed by the end of the fourth semester in order to gain theoretical and practical skills. The following is the structure of the course: 

  • IV Semesters
  • Core Subjects
  • Elective Subjects
  • Practical Workshops
  • Research Project/Thesis Submission

M.Sc Physics Teaching Methodology and Techniques 

The M.Sc Physics curriculum integrates a variety of methods of teaching physics with new technology. Additionally to lectures and practicals, students are trained in elective subjects from different specializations. Most colleges and universities encourage students to do internships and training in their field of specialization as part of their core curriculum. Teaching methodologies facilitate the acquisition of industrial skills.

The use of developing technologies is an option for students in addition to traditional classroom instruction. Generally, the following teaching methods are used: 

  • Traditional Classroom Method
  • Recitation
  • Demonstration
  • Lecture-cum-Demonstration
  • Audiovisual Instruction
  • Group Instruction
  • Case Study
  • Flipped Classrooms
  • Kinesthetic Learning
  • Differentiated Instruction

M.Sc Physics Projects

The M.Sc Physics curriculum includes research projects that will enable students to gain experience in managing projects in industries. In the M.Sc Physics course, students will learn about factors that influence research project success and strategies for implementing them. Students in the M.Sc Physics program are connected with industries so they can gain valuable experience. The M.Sc Physics project must be completed by the end of the fourth semester. The following are the most popular M.Sc Physics project topics: 

  • The Analog Circuit Approach to Quantum Systems.
  • Theory of Quantum Manipulation and Quantum Control.
  • Insights into the Evolution of Blue Spectral Features in Type la Supernova Spectra.
  • Simulations of Stellar Winds Interacting with Interstellar Medium.
  • The Formation of Van Allen Belts on Earth.
  • QuasiClassical Correspondence for Highly Nonlinear Circuit QED Based Systems.

M.Sc Physics Course Reference Books 

M.Sc Physics books are available both online and in stores, including a variety of titles and publishers. All major topics in M.Sc Physics books are covered, as well as background information on various physics fields. The reference books are free to download online in PDF format as well as intended to clarify concepts.

Course books for students enrolled in an M.Sc Physics program may differ depending on their edition. The purchase of reference books is a wise investment after thorough research. The following books are excellent references for M.Sc Physics students:

M.Sc Physics Books

Name of the Books


Mathematical Methods

Paul Goldbarts

Solid State Physics, Device and Electronics

K.Vijaya Kumar & T. Sreekanth


D. S Mathur

Electricity and Magnetism

James Clerk Maxwell


Ajay Ghatak

Theory and Problems of Complex Variables

M. R. Spiegel

Mathematical Methods for Physicists

G. Arfken

Mathematical Methods of Physics

J. Mathews and R. I Walker

Mathematics for Physicists

P. Dennery and A. Krzywicki

Classical Mechanics

K. C. Gupta

Add Your Question

Improve Your Question

Answer Now

Post By