BSc Physics 3rd Year Syllabus: Subjects List, Electives & Practicals
BSc Physics 3rd year syllabus aims at the study of core topics like solid state physics part 1 and 2, electricity and magnetism, advanced mathematical physics, applied mechanics, etc. The BSc Physics syllabus also focuses on offering knowledge on specialized topics like condensed matter physics, plasma physics, renewable energy physics, particle physics, etc., in the third year of the course.
BSc Physics 5th Sem subjects deal with an in-depth exploration of Maxwell's equations, atmospheric physics, climate science, etc whereas BSc Physics 6th sem subjects deal with specialized topics in physics ranging from quantum optics, plasma physics to biophysics.
| BSc Physics 1st Year Syllabus | BSc Physics 2nd Year Syllabus |
Table of Content
- BSc Physics 3rd Year Syllabus
- B.Sc Physics 3rd Year Subjects
- BSc Physics Third Year Practical Subjects
BSc Physics 3rd Year Syllabus
B.Sc Physics 3rd year syllabus covers theory, practical, and skill development courses on hardware applications, computer programming, data analysis, scientific writing, simulation, understanding the interdisciplinary nature of physics, etc.
Below listed is BSc Physics third year syllabus in detail:
|
Semester V |
Semester VI |
|
Solid State Physics-I |
Nuclear Physics-II |
|
Electricity and Magnetism |
Applied Mechanics |
|
Electrodynamics -II and Electronics- II |
Atomic Physics, Particle Physics & Cosmic Rays |
|
Nuclear Physics-I |
Quantum Mechanics and Relativity |
|
Classical and Quantum Mechanics Advanced |
Solid State Physics-II |
|
Practicals/Lab Work |
Advanced Thermal and Statistical Physics |
|
Minor Project |
Practicals/Lab Work |
|
- |
Dissertation/Project Report |
B.Sc Physics 3rd Year Subjects
The BSc Physics subjects in the third year aim to study mathematical frameworks that govern the behavior of matter and energy. Students will also have the opportunity to explore specialized areas of physics through elective courses, such as astrophysics, particle physics, condensed matter physics, etc. Below are the BSc Physics 3rd year subjects in detail:
BSc Physics 5th Semester Subjects in Detail
BSc Physics fifth semester subjects include topics like electric band theory, complex permittivity, multipole expansion, advanced quantum mechanics: lagrangian and hamiltonian mechanics, etc.
Below listed are BSc Physics 5th semester subjects in detail:
|
Subjects |
Topics Covered |
|
Solid State Physics-I |
Crystal Bonding-Metallic Bond, Ionic Bond, Atomic Radius, Classification of Crystals, Bravais Lattice 3 Dimensions, etc. |
|
Electricity and Magnetism |
Carey Foster Bridge Theory, Thomson Effect and Thomson Coefficient, Uses of Capacitors, Intensity of Magnetization, Faraday's Laws of Electromagnetic Induction, etc. |
|
Classical and Quantum Mechanics Advanced |
Hamilton's Equations and Hamiltonian Dynamics, Noether's Theorem and Symmetries, Perturbation Theory and Stability of Orbits, Euler's Equations, etc. |
|
Electrodynamics -II and Electronics- II |
Poynting's Theorem, Cauchy's Formula, De-Morgan’s Theorem, Barkhausen Criterion, Colpitts Oscillator, CE Amplifier, etc. |
|
Nuclear Physics-I |
Experimental Technique, Radioactivity, Introduction to Nuclear Physics, Nuclear Detectors, Nuclear Decay Models, etc. |
BSc Physics 6th Semester Subjects in Detail
BSc Physics 6th sem syllabus covers topics like complex quantum systems, semi conductor physics, crystal structures, group theory, etc. Below listed are BSc in Physics 6th semester subjects in detail:
|
Subjects |
Topics Covered |
|
Solid State Physics-II |
Perovskite and Spinel Structure, Diffraction of X-Rays by Crystals, Classical Theory of Diamagnetism, Meissner Effect, Electric Polarisation Types, etc. |
|
Quantum Mechanics and Relativity |
Heisenberg’s Uncertainty Principle, Tunneling Effect, Inverse Operators, Frame of Reference, Lorentz Transformation, Galilean Transformation, etc. |
|
Applied Mechanics |
Analysis of Forces, Moments, and Torques, Energy and Momentum Methods, Wedge Friction, Damping and Vibration Isolation, etc. |
|
Advanced Thermal and Statistical Physics |
Partition Functions and Their Properties, Fermi-Dirac Statistics, Bose-Einstein Condensation, Hawking Radiation, Onsager Reciprocal Relation, etc. |
|
Nuclear Physics-II |
β Ray Spectroscopy, Liquid Drop Model, Shell Model of Nucleus, Nuclear Force, α and γ Ray Spectroscopy, etc. |
|
Atomic Physics, Particle Physics & Cosmic Rays |
Atom Models, Effect of Magnetic Fields and Many Electron Atoms, X Ray and Molecular Physics, Elementary Physics, Cosmic Rays, etc. |
Also, Check: Career Opportunities after BSc Physics in India
BSc Physics Elective Subjects in Third Year
In the third year of the BSc Physics curriculum, students can choose from a variety of elective studies based on their areas of interest. The third-year BSc Physics elective subjects are listed below:
- Energy Physics and Electronic Communication Systems
- Microprocessor and Applications
- Nuclear Physics and Cosmic Concepts
- Environmental Physics and Human Rights
- Plasma Physics
- BioPhysics Concepts
- Condensed Matter Physics Principles and Concepts
BSc Physics Third Year Practical Subjects
BSc Physics 3rd year syllabus consists of practical subjects or lab work that helps students gain hands-on experience related to the verification of theories, and familiarize them with the usage of tools, instruments, software such as data analysis software, etc. The BSc Physics course offers an industry-oriented syllabus that helps students to work in research centers, educational institutes, and other sectors.
Below listed are B.Sc Physics third year practical subjects:
| 5th Semester Practical Topics | 6th Semester Practical Topics |
| Solid State Physics Practical Application | Nuclear Physics-II Lab Work/Practical |
| Nuclear Physics-I Lab Work/Practical | Quantum Mechanics and Relativity |
| Electricity, Magnetism and Laser | Applied Dynamics |
| Advanced Mathematical Physics Practical Application |
BSc Physics 3rd Year Question Paper Marking Scheme
In the third year, students are evaluated based on internal assessment, end-semester examinations, research projects, and skill-enhancement elective courses. The total marks per subject is 100, where 25 marks are for internal assessment and 75 marks for end semester examination. The practical or laboratory work contains 50 marks per subject.
The bifurcation of internal and end-semester examination marks can vary from university to university for BSc Physics syllabus. Below listed is the BSc Physics fifth and sixth semesters marking scheme:
B.Sc Physics 5th Semester Marking Scheme
Below listed is the BSc 5th sem Physics syllabus marking scheme for the theory and practical subjects covered:
|
Subjects |
Category |
Internal Assessment |
End Semester Examination |
Total Marks |
|
Electricity and Magnetism |
Theory |
25 |
75 |
100 |
|
Classical and Quantum Mechanics Advanced |
Theory |
25 |
75 |
100 |
|
Solid State Physics-I |
Theory |
25 |
75 |
100 |
|
Solid State Physics-I |
Practical |
- |
50 |
50 |
|
Classical and Quantum Mechanics Advanced |
Practical |
- |
50 |
50 |
|
Electricity and Magnetism |
Practical |
- |
50 |
50 |
|
Computational Methods and Programming in-C/ Instrumentation |
Skill-Based Elective Course Theory |
25 |
75 |
100 |
|
Computational Methods and Programming in-C/ Instrumentation |
Skill-Based Elective Course Practical |
- |
50 |
50 |
BSc Physics 6th Semester Marking Scheme
Below listed is the BSc in Physics sixth semester marking scheme bifurcated into internal assessment and end semester examination:
|
Subjects |
Category |
Internal Assessment |
End Semester Examination |
Total Marks |
|
Quantum Mechanics and Relativity |
Theory |
25 |
75 |
100 |
|
Solid State Physics-II |
Theory |
25 |
75 |
100 |
|
Advanced Thermal and Statistical Physics |
Theory |
25 |
75 |
100 |
|
Advanced Thermal and Statistical Physics |
Practical |
- |
50 |
50 |
|
Quantum Mechanics and Relativity |
Practical |
- |
50 |
50 |
|
Solid State Physics-II |
Practical |
- |
50 |
50 |
|
Hardware Skills/ Microprocessor and its Applications |
Skill-Based Elective Course Theory |
25 |
75 |
100 |
|
Hardware Skills/ Microprocessor and its Applications |
Skill-Based Elective Course Practical |
- |
50 |
50 |
|
Research Project/Dissertation |
Problem-Based Solving |
- |
100 |
100 |
BSc Physics 3rd Year Reference Books
BSc in Physics third year books cover topics like quantum states and matters, nuclear reactions, theoretical models of physics and advanced math, etc. Students can refer to BSc 3rd year Physics book pdf download from the respective college website.
Below listed are a few important books for 3rd year BSc Physics syllabus:
|
Books |
Author |
Topics Covered |
|
Principles of Quantum Mechanics |
R. Shankar |
Quantum Mechanics, Wave Functions, Operators, etc. |
|
Statistical Mechanics |
R.K. Pathria |
Statistical Mechanics, Thermodynamics, Kinetic Theory, etc. |
|
Solid State Physics |
Charles Kittel |
Condensed Matter Physics, Crystal Structures, and Properties, etc. |
|
Introduction to Astrophysics |
Barbara Ryden |
Astrophysical Phenomena, Stellar Structure, Cosmology Principles, etc. |
|
Plasma Physics and Controlled Fusion |
Francis F. Chen |
Plasma Physics Concepts and Principles, Fusion Energy, Magnetic Confinement, etc. |
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FAQs
What are the elective subjects offered in the third year of BSc Physics?
The elective subjects in the third year of BSc Physics may vary, but common advanced topics include theoretical physics, astrophysics, nuclear physics, condensed matter physics, etc.
Is the internship compulsory in the B.Sc 3rd year Physics syllabus?
Yes, students need to complete their internship in the final year of the BSc Physics course.
Is there a capstone project or comprehensive examination in the third year?
BSc Physics programs incorporate a capstone project in the third year that helps students in academic experiences and demonstrates a deep understanding of the subject matter.
How is theoretical physics inculcated in the third year B.Sc Physics syllabus?
Theoretical physics is typically integrated into the third-year curriculum through advanced courses covering topics like quantum field theory, general relativity, and advanced quantum mechanics, etc.
What topics are covered in Electrodynamics?
Topics included in Electrodynamics are electric and magnetic fields, electromagnetic waves, the interactions between charged particles, electromagnetic radiation, Maxwell's equations, etc.