CUET PG 2025 Physics Syllabus is designed to assess the aspirant’s understanding of core physics concepts with a focus on analytical abilities. The CUET PG Physics syllabus covers topics like mathematical methods, mechanics and general properties of matter, oscillations, waves and optics, etc. Thus, aspirants must thoroughly check the syllabus to identify the most weightage chapters and plan their preparation accordingly. Familiarity with the CUET PG exam pattern for Physics is also crucial for exam success.
CUET PG 2025 Physics Syllabus
CUET stands for Common University Entrance Test (CUET). This test is conducted every year for candidates willing to secure admission to the PG programmes in central and participating institutions. To excel in this exam, aspirants must master all the concepts prescribed in the CUET PG 2025 Physics syllabus. It will help them differentiate between crucial and irrelevant topics. Thus, the CUET PG syllabus acts as a roadmap in the preparation. So, aspirants must include its latest version in their preparation to achieve the desired results in the CUET PG 2025 exam.
CUET PG Physics 2025 Syllabus PDF
Access to the free CUET PG Physics syllabus PDF can simplify your preparation. It will help you to discover the important topics and allow you to allocate ample time to each chapter with focused revision.
| CUET PG 2025 Physics Syllabus PDF |
CUET PG 2025 Physics Syllabus Topic Wise
The CUET PG Physics syllabus typically is divided into various chapters such as mathematical methods, mechanics and general properties of matter, oscillations, waves and optics, electricity and magnetism, kinetic theory, thermodynamics, modern physics, and solid state physics, devices and electronics. Grasp the concepts of each and every chapter to boost your preparation level and chances of exam success. Here is the topic-wise CUET PG 2025 Physics Syllabus below for the in-depth knowledge of the candidates.
| Section | Important Topics |
| Mathematical Methods | Calculus of single and multiple variables Partial derivatives Jacobian Imperfect and perfect differentials Taylor expansion Fourier series Vector algebra Vector Calculus Multiple integrals Divergence theorem, etc |
| Mechanics and General Properties of Matter | Newton’s Laws of motion and applications Velocity and acceleration in Cartesian Polar and cylindrical coordinate systems Centrifugal and Coriolis forces Motion under a central force Kepler’s laws, Gravitational Law and field Conservative and non-conservative forces System of particles Rigid body motion, etc |
| Oscillations, Waves and Optics | Differential equation for simple harmonic oscillator and its general solution Superposition of two or more simple harmonic oscillators Lissajous figures Damped and forced oscillators, resonance. Wave equation Energy density and energy transmission in waves, etc |
| Electricity and Magnetism | Coulomb’s law, Gauss’s law Electric field and potential Electrostatic boundary conditions Solution of Laplace’s equation for simple cases Conductors, capacitors Biot-Savart law Maxwell’s equations and plane electromagnetic waves, etc |
| Kinetic theory, Thermodynamics | Elements of Kinetic theory of gases Velocity distribution and equipartition of energy Specific heat of Mono-, di- and tri-atomic gases Ideal gas, van-der-Waals gas and equation of state Mean free path Laws of thermodynamics Zeroth law and concept of thermal equilibrium First law and its consequences Isothermal and adiabatic processes Reversible, irreversible and quasi-static processes Second law and entropy, etc |
| Modern Physics | Inertial frames and Galilean invariance Postulates of special relativity Lorentz transformations Length contraction, time dilation Relativistic velocity addition theorem, mass-energy equivalence Blackbody radiation Wave-particle duality, etc |
| Solid State Physics, Devices and Electronics | Crystal structure Bravais lattices and basis Miller indices X-ray diffraction and Bragg's law Intrinsic and extrinsic semiconductors, variation of resistivity with temperature Fermi level p-n junction diode, I-V characteristics, Zener diode and its applications, etc. |
CUET PG 2025 Physics Exam Pattern
Knowledge of the CUET PG physics exam pattern is crucial to understanding the specific requirements of the exam. It provides insights into exam format, question type, exam duration, number of questions, and much more. Check the key highlights below:
- A total of 75 compulsory questions will be asked.
- The medium of paper shall be Bilingual (English/Hindi).
- As per the marking scheme, 4 marks will be allotted for each correct answer whereas a negative marking of 1 mark is there for each incorrect answer.
| Subject | Number of Questions | Duration |
| Physics | 75 questions | 90 minutes |
How to Prepare for CUET PG 2025 Physics Syllabus
Acing the CUET PG Physics exam is challenging. However, aspirants can still crack it by following the expert-recommended tips and tricks shared below:
- Focus on important topics like mathematical methods, mechanics and general properties of matter, oscillations, waves and optics, etc.
- Read limited books and resources for each topic to maintain clarity in the concepts.
- Solve unlimited mock tests and past papers to learn how to manage time effectively in the exam.
- Maintain notes for all the important chapters as it eases the revision sessions.
Books for CUET PG 2025 Physics Syllabus
There are innumerable books out there to cover the CUET PG 2025 physics syllabus. But, you must pick the latest edition of the books that explain concepts in easy language. Here is the list of best CUET PG Physics books shared below:
- Concept of Physics Vol 1 & Vol 2 by HC Verma
- Understanding Physics by DC Pandey
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