How to Prepare for KLEEE 2025 Physics:
Most students find Physics a challenging subject to approach while preparing for an entrance examination, and KLEEE exam is no different. Since Physics covers a significant part of the
KLEEE 2025
syllabus, students must get familiar with the concepts and start their preparations as early as possible. The subject covers 25 out of 75 questions and features conceptual topics, theories, derivations, numeric problems etc. in the KLEEE exam paper. A well-structured KLEEE 2025 Physics study plan combined with frequent mock tests and pyq practice can help students easily score good marks in this section.
Also Check:
KLEEE 2025: Application, Exam Date, Eligibility, Pattern, Syllabus
Quick Links:
| KLEEE 2025 Exam Pattern | KLEEE Preparation Tips 2025 |
|---|---|
| KLEEE Best Books 2025 | KLEEE Previous Year Question Papers |
KLEEE 2025 Physics Syllabus
There are 27 units or chapters included in the Physics section of KLEEE paper. The following is the unit-wise break-up of the KLEEE syllabus 2025 for Physics.
Unit | Chapters |
|---|---|
Unit 1 | Units and Dimensions |
Unit 2 | Elements of Vectors |
Unit 3 | Kinematics-Dynamics |
Unit 4 | Work, Power, and Energy |
Unit 5 | Centre of Mass |
Unit 6 | Friction |
Unit 7 | Rotatory Motion |
Unit 8 | Gravitation |
Unit 9 | Simple Harmonic Motion |
Unit 10 | Elasticity |
Unit 11 | Surface Tention |
Unit 12 | Hydrodynamics |
Unit 13 | Viscosity |
Unit 14 | Expansion of Solids- Liquids-Gases |
Unit 15 | Thermodynamics |
Unit 16 | Thermal Radiations |
Unit 17 | Sound |
Unit 18 | Geometrical Optics |
Unit 19 | Physical Optics |
Unit 20 | Magnetism |
Unit 21 | Electro Statics |
Unit 22 | Current Electricity |
Unit 23 | Thermo Electricity |
Unit 24 | Electro Magnetics |
Unit 25 | Atomic Physics |
Unit 26 | Nuclear Physics |
Unit 27 | Semiconductor Devices |
Also Check: KLEEE 2025 Syllabus: Subject-Wise Syllabus PDF
Important Topics for KLEEE 2025 Physics Paper
The Physics syllabus for KLEEE 2025 covers topics from 12th-standard Physics and is generally familiar to students. However, being a university-level entrance exam the standard of questions can vary from moderate to difficult. Therefore, students must have a good understanding of the KLEEE 2025 exam pattern and weightage of each topic so they can start their studies accordingly and focus on important topics to score better.
The following list highlights some of the most important chapter-wise topics for KLEEE 2025 Physics:
Units | Topics |
|---|---|
Units and Dimensions | Fundamental units in the CGS & SI systems, Dimensions of Physical quantities, Application of Dimensional Analysis, Errors in measurements |
Elements of Vectors | Addition and subtraction of Vectors, Unit vectors in Cartesian coordinate system, Multiplication of a vector with scalar |
Kinematics-Dynamics | Equations of motion, Two-dimensional motion, Projectile motion, Newton's Laws of motion, Collision of two bodies in one dimension, Elastic and inelastic collisions, Coefficient of restitution |
Work, Power, and Energy | Definition and units, Expressions for P.E. & K.E, Work- Energy theorem, Law of conservation of energy |
Centre of Mass | Coordinates of the center of mass, Laws of motion of the center of mass |
Friction | Static, Kinetic, and Rolling friction, Laws of Friction |
Rotatory Motion | Centripetal and Centrifugal forces, Torque and Couple, Relation between Angular Momentum and Torque, Moment of Inertia, Rotational Kinetic Energy, Parallel and perpendicular axes theorems, Expressions for the Moment of Inertia, Conservation of angular momentum |
Gravitation | Kepler's laws of planetary motion, Newton's universal law of gravitation, the Relation between g & G, Escape velocity, and orbital velocity |
Simple Harmonic Motion | Expressions for the period of a simple pendulum and loaded spring, Force constant, Expressions for the KE & PE of a body in SHM |
Elasticity | Elasticity & plasticity, Stress, Strain, Hooke's law, Moduli of elasticity (Y, n, K), Poisson's ratio (s), Relation between Y, n, K and s, expression for strain energy |
Surface Tension | Molecular Phenomenon, Angle of contact, Capillarity, Experimental determination of Surface Tension, variation of Surface Tension with temperature |
Hydrodynamics | Principle of Buoyancy, Pressure in a fluid, Bernoulli's theorem, Aerodynamic lift and motion of spinning ball |
Viscosity | Principle of Buoyancy, Pressure in a fluid, Bernoulli's theorem, Aerodynamic lift and motion of spinning ball |
Expansion of Solids- Liquids-Gases | Coefficients of expansion of solids, liquids, and gasses, Anomalous expansion of water and its effects, Kelvin's scale of temperature, Boyle's law and Charle's law, Ideal gas equation |
Thermodynamics | Joule's law and Mechanical equivalent of Heat (J), Isothermal and Adiabatic processes, Relationships between P, V & T, Zeroth law, First and Second laws of thermodynamics, Relation Cp-Cv = R |
Thermal Radiations | Prevost's theory of heat exchanges, Emissive and absorptive powers, Black body radiation, Kirchoff's law, Newton's law of cooling, Laws of Black body radiation, Stefan's law, Weien's displacement law, and Planck's formula |
Sound | Propagation of sound, Wave equation, Velocity of sound, Variation of velocity of sound in gasses, Resonance, Formation of stationary waves, Laws of transverse waves, Doppler effect, Formulae for apparent frequency |
Geometrical Optics | Foucault's rotating mirror method, Total internal reflection, Application to optical fibers, Lens maker's formula, Spherical and Chromatic aberrations and their elimination, Dispersion of light, Formula for refractive index of prism, Determination of angle of a prism, Dispersive power of a prism |
Physical Optics | Newton's corpuscular theory, Huygens wave theory, Electromagnetic theory, Quantum Theory, Young's double slit experiment, Polarization |
Magnetism | Magnetic pole strength, Inverse square law, Magnetic induction, Magnetic moment of a magnet, Tangent law, Deflection magnetometer, Magnetic materials Dia, Para, Ferro, Antiferro and Ferri Magnetism, Electron theory of magnetism |
Electrostatics | Coulomb's law, Electric lines of force, Electric potential, Potential energy of a point charge, Relation between E and V ( E =v/d), - Types of capacitors and their uses |
Current Electricity | Ohm's law, Conductance, Temperature dependence of resistivity, Kirchoff's laws, Application to Wheatstone's bridge, Metre bridge |
Thermo Electricity | Peltier and Thomson effects, Variation of thermo emf with temperature, Application of thermocouples |
Electro Magnetics | Oersted's experiment - Biot Savart law - The Tesla Ampere law, Force on a moving charge in a magnetic field, Force on a current carrying conductor in a magnetic field, Fleming's left-hand rule, Tangent Galvanometer, Shunt and its uses, Conversion of moving coil galvanometer into ammeter and voltmeter, Comparison of Moving Coil Galvanometer with Tangent Galvanometer, Electromagnetic induction, Magnetic flux, and induced emf, Faraday and Lenz laws, Fleming's right-hand rule |
Atomic Physics | e/ m electron by Thomson's method, Charge of an electron by Millikan's oil drop method, Laws of photoelectric emission, Einstein's photoelectric equation, Mosley's law, Dual nature of matter, De Borglie's hypothesis |
Nuclear Physics | Composition of the nucleus, Nuclear forces, Mass defect, and binding energy, Discovery of the neutron, Nuclear fission, Chain reaction, Nuclear fusion |
Semiconductor Devices | Junction Diode, Depletion layer, Barrier potential, Zener diode as a voltage regulator, Transistors, pnp, and non-transistors, Transistor characteristics |
Quick Links:
| KLEEE Eligibility Criteria 2025 | KLEEE Application Form 2025 |
|---|---|
| KLEEE Admit Card 2025 | - |
KLEEE 2025 Physics Study Plan & Timetable
One of the most effective approaches to preparing for KLEEE Physics is to read the important topics and concepts first and then go to lesser-asked sections of the syllabus. The following are some of the essential points to remember while coming up with a study plan for KLEEE 2025 Physics:
1. Read the KLEEE 2025 Physics syllabus carefully and get familiar with the topics
2. Explore previous years’ question papers to identify the exam pattern
3. Sort out your favorite or strong topics and start with them
4. Avoid reading from multiple sources, instead pick a few reliable study materials and stick to them.
5. Revise what you study regularly
6. Participate in mock tests
7. Have a good understanding of concepts, and try to use multiple approaches while solving problems.
8. Make daily goals and craft a plan to achieve them
9. Distribute time for each subject and topic effectively
10. Take sufficient breaks
Also Check:
KLEEE 2025 Exam Date: Application Form, Admit Card, Result, Counselling Dates
Best Books & Study Materials for KLEEE 2025 Physics
Reading from good books and study materials can be crucial for KLEEE preparations. Good books written by credible authors not only cover the entire syllabus, but also give clarity on concepts, multiple solved and unsolved examples, and exercises to practice. The following are some of the best books that students can refer to for KLEEE 2025 Physics preparations.
Book | Author |
|---|---|
Concepts of Physics (Vol. 1 & 2) | H.C Verma |
NCERT Class 11th & 12 Physics | NCERT |
Fundamentals of Physics | Halliday, Rasnick, and Walker |
Problems in Physics | S.S Krotov |
Understanding Physics | Freedman and Young |
Problems in General Physics | I.E Irodov |
Week-Wise KLEEE 2025 Physics Timetable
A dedicated and well-distributed study plan is often the secret to being successful in competitive exams. Students preparing for KLEEE 2025 must manage their daily timetable wisely, so they can cover the syllabus and give sufficient time to revisions and miscellaneous topics. The following is an ideal weekly timetable for preparing KLEEE 2025 Physics.
Day | Topic/Activity | Time Allotment |
|---|---|---|
Monday | Geometrical Optics & Physical Optics | 12 hr |
Tuesday | Magnetism | 12 hr |
Wednesday | Electrostatics | 12 hr |
Thursday | Solved Examples Practice | 9 hr |
Friday | Revisions | 10hr |
Saturday | Previous Years’ Question Papers | 9hr |
Sunday | Mock Test | 3hr |
Mock Tests for KLEEE 2025 Physics
Mock tests are a great way of familiarizing yourself with the exam pattern and checking your preparation status. KLEEE 2025 mock tests can help students to plan their studies and help them identify priority topics from the syllabus. However, a mock test is mostly only insightful, when a student has completed the syllabus and has done a few revisions of the same. Therefore, students should only go for full-fledged mock tests once they are comfortable with the syllabus. Some students prefer to give topic-wise mock, which can also be an effective strategy to strengthen specific concepts.
We hope this article was helpful for all KLEEE 2025 aspirants. For the latest updates and information, stay tuned to CollegeDekho!
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