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B.Sc (Physics)
programme Overview
The Bachelor of Science (B.Sc.) in Physics is a comprehensive three-year undergraduate programme designed to build a strong foundation in the fundamental principles of physics. It explores the laws of nature that govern the universe — from the motion of everyday objects to the behavior of particles at the atomic and subatomic level.
Students are introduced to core areas such as mechanics, thermodynamics, optics, electromagnetism, quantum physics, and statistical mechanics, along with essential mathematical methods that support physical reasoning. Through a combination of theoretical instruction, problem-solving, and laboratory experiments, learners develop analytical thinking, scientific inquiry skills, and a solid grasp of physical concepts.
It spans 3 years (6 semesters) and covers fundamental and advanced topics in physics, supported by experimental and computational techniques.
3 Years
Duration of program
UG
Level of Study
Faculty Overview
The Bachelor of Science (B.Sc.) in Physics is a comprehensive three-year undergraduate programme designed to build a strong foundation in the fundamental principles of physics. It explores the laws of nature that govern the universe — from the motion of everyday objects to the behavior of particles at the atomic and subatomic level.
Students are introduced to core areas such as mechanics, thermodynamics, optics, electromagnetism, quantum physics, and statistical mechanics, along with essential mathematical methods that support physical reasoning. Through a combination of theoretical instruction, problem-solving, and laboratory experiments, learners develop analytical thinking, scientific inquiry skills, and a solid grasp of physical concepts.
It spans 3 years (6 semesters) and covers fundamental and advanced topics in physics, supported by experimental and computational techniques.
3 Years
Duration of program
UG
Level of Study
Key Highlights
Key Highlights
Key Highlights
Key Highlights
Key Highlights
Key Highlights
HOW WILL YOU BENEFIT
Strong Conceptual Clarity: Understand the "why" behind natural phenomena through a structured curriculum in classical and modern physics.
Research Skills: Gain early exposure to scientific research and inquiry through projects and academic mentorship.
Hands-On Experience: Apply theory in well-equipped labs, improving technical and experimental skills.
Career Flexibility: Be prepared for roles in education, research, data science, electronics, and government services.
WHAT WILL YOU STUDY
- Classical Mechanics, Thermodynamics, Electricity and Magnetism, Optics
- Quantum Mechanics, Modern Physics, Solid State Physics
- Mathematical Physics, Computational Physics
- Electronics, Laboratory Work, and Research Project/Dissertation
- Knowledge – In-depth understanding of core physics concepts and theories
- Skill Development – Analytical reasoning, lab techniques, problem-solving, and data analysis
- Experimental Ability – Designing and performing scientific experiments with accurate reporting
- Technological Literacy – Use of computational tools and software (e.g., Python, MATLAB) in physics
- Research Readiness – Preparation for undergraduate research, dissertations, and future projects
- Communication – Ability to present scientific ideas clearly in both oral and written forms
- Career Preparedness – Readiness for roles in education, industry, R&D, and public service
- Social Awareness – Understanding of science's role in solving societal and environmental problems
- PSO1 – Core Conceptual Mastery: Acquire a clear and comprehensive understanding of classical mechanics, thermodynamics, electromagnetism, optics, quantum mechanics, and modern physics.
- PSO2 – Analytical and Mathematical Proficiency: Develop the ability to use mathematical tools and models to describe and solve physical systems and problems.
- PSO3 – Experimental and Technical Skills: Gain competence in designing and conducting physics experiments, using laboratory equipment, analyzing data, and interpreting results accurately.
- PEO1 – Computational & Simulation Skills: Learn to apply computational methods and simulation tools to solve physics problems and visualize physical processes.
- PEO2 – Application of Physics in Real-World Contexts: Understand and apply physical principles in technology, industry, and interdisciplinary domains such as electronics, energy, and materials science.
- PEO3 – Scientific Communication and Ethics: Develop the ability to write scientific reports, give technical presentations, and adhere to professional and ethical standards in scientific research and collaboration.
CURRICULUM
CAREERS AND EMPLOYBILITY
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Career name
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