KCET 3-Day Push
A complete 3-day plan covering 25 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.
- Days
- 3
- Topics
- 25
- Subjects
- 4
- Cost
- Free
How to actually use your 3 days
Maximise marks per hour — there is no time for anything but the highest-yield topics.
This 3-day push gives you 3 days to work through 25 weighted KCET topics across 4 subjects — roughly 8.3 new topics a day at 8–10 hours of focused study. That is not a study plan in the normal sense — it is damage control, and done right it can still move your score.
KCET marks are not spread evenly across subjects. Mathematics, Physics, and Chemistry carry the heaviest weightage in recent papers, so this plan front-loads them — with only the heaviest topics in scope, everything else is deliberately out of frame. Study only KCET's weight-5 topics — for most candidates the heaviest of Mathematics, Physics, and Chemistry. Everything weight-4 and below is noise at this range; skip it without guilt.
In 3 days you cannot cover 25 topics, so this plan does not try. It targets only the handful that historically carry the most marks. The failure mode here is spreading thin. Pick the top topics and go deep enough to actually score, rather than skimming everything.
What to prioritise & cut
Study only KCET's weight-5 topics — for most candidates the heaviest of Mathematics, Physics, and Chemistry. Everything weight-4 and below is noise at this range; skip it without guilt.
Mock tests & revision
No full mocks. Spend every minute on previous-year KCET questions for your highest-weight topics and memorise their solution patterns.
Weekly rhythm
There is no week — work in 90-minute blocks on your heaviest KCET topics, short breaks between, prioritising recall over re-reading.
Subject-wise topic split
Each topic shows its weightage (1–5 dots) and the concepts you'll cover. Higher-weight topics appear first.
Mathematics
7 topics- Complex Numbers and Quadratic Equations ●●●○○
Complex numbers as a+ib, algebra of complex numbers, modulus and argument, De Moivre's theorem, cube roots of unity, quadratic equations with real and complex roots, discriminant, and nature of roots.
- Matrices and Determinants ●●●○○
Types of matrices, matrix operations (addition, multiplication, transpose), adjoint and inverse of matrices, determinant evaluation (up to 3×3), properties of determinants, and solving linear equations using matrices.
- Permutations and Combinations ●●●○○
Fundamental principle of counting, permutation (linear and circular), combination, Pascal's triangle, binomial theorem (general and middle term), binomial expansion for positive integer indices, and arrangement problems.
- Sequence and Series ●●●○○
Arithmetic progression (AP), geometric progression (GP), arithmetic-geometric progression (AGP), harmonic progression (HP), sum of n terms, infinite series convergence, and AM-GM inequality applications.
- Binomial Theorem ●●●○○
Positive integral index binomial expansion, general and middle terms, Pascal's triangle, binomial coefficient properties, and applications in finding coefficients and approximations.
- Trigonometric Functions and Identities ●●●○○
Trigonometric ratios, identities (basic and conditional), signs in quadrants, allied angles, sum-to-product and product-to-sum formulas, multiple and submultiple angles, and solving trigonometric equations.
- Straight Lines and Pair of Linear Equations ●●●○○
Cartesian coordinate system, distance formula, section formula, area of triangle, slope-intercept form, general equation of line, angle between lines, perpendicular and parallel conditions, and solving linear equations graphically.
Physics
6 topics- Physics and Measurement ●●●○○
Units and dimensions, SI base units, errors in measurement, significant figures, vernier calipers, screw gauge, and dimensional analysis — foundational concepts for all physics problem-solving.
- Kinematics ●●●○○
Motion in one and two dimensions — displacement, velocity, acceleration, equations of motion, projectile motion, relative velocity, and circular motion with numerical applications.
- Laws of Motion ●●●○○
Newton's three laws, friction (static and kinetic), circular motion dynamics, tension, spring force, and momentum conservation — core mechanics for engineering entrance exams.
- Work, Energy and Power ●●●○○
Work done by constant and variable forces, kinetic and potential energy, work-energy theorem, conservation of mechanical energy, power, and collisions (elastic and inelastic).
- Rotational Motion ●●●○○
Torque, moment of inertia, angular momentum, radius of gyration, theorems of moment of inertia, rotational kinematics, and conservation of angular momentum.
- Gravitation ●●●○○
Newton's law of gravitation, acceleration due to gravity, variation of g with altitude and depth, Kepler's laws, orbital velocity, escape velocity, and gravitational potential energy.
Chemistry
6 topics- Atomic Structure ●●●○○
Dual nature of matter, de Broglie relation, Heisenberg uncertainty principle, quantum numbers, orbital shapes (s, p, d, f), Aufbau principle, Hund's rule, Pauli's exclusion principle, and electronic configurations.
- Chemical Bonding and Molecular Structure ●●●○○
Ionic and covalent bonding, VSEPR theory, hybridization (sp, sp², sp³, sp³d, sp³d²), valence bond theory, MOT (bond order, HOMO-LUMO), dipole moment, and resonance structures.
- Classification of Elements and Periodicity ●●●○○
Modern periodic table, periodic trends — atomic radius, ionization enthalpy, electron gain enthalpy, electronegativity, valence electrons, metallic/non-metallic character across periods and groups.
- States of Matter ●●●○○
Gas laws (Boyle's, Charles's, Avogadro's), ideal gas equation, kinetic theory of gases, van der Waals equation, liquefaction of gases, critical temperature, and solid-state (lattice, crystal systems, Bragg's law).
- Thermodynamics ●●●○○
System and surroundings, first law of thermodynamics (internal energy, work, heat), enthalpy, Hess's law, spontaneity, Gibbs free energy, second law of thermodynamics, and entropy change calculations.
- Chemical Equilibrium ●●●○○
Reversible reactions, equilibrium constant (Kp, Kc), Le Chatelier's principle, factors affecting equilibrium, relationship between Kp and Kc, ionic equilibrium in solutions, pH, buffers, and solubility product.
Biology
6 topics- Cell Biology and Cell Organelles ●●●○○
Cell theory, prokaryotic vs eukaryotic cells, plant vs animal cells, structure and functions of organelles (nucleus, mitochondria, chloroplast, ER, Golgi), cell membrane (fluid mosaic model), and transport mechanisms.
- Genetics and Molecular Biology ●●●○○
Mendel's laws, inheritance patterns (dominant, recessive, codominance, multiple alleles), DNA structure and replication, RNA transcription and translation, gene expression, genetic code, and human genetics (blood groups, colour blindness, pedigree analysis).
- Human Physiology ●●●○○
Digestive system (enzymes, absorption, assimilation), respiratory system (gas exchange, hemoglobin), circulatory system (heart, blood groups, circulation), excretory system (nephron, urine formation), nervous system (reflex, synapse), and endocrine glands with hormones.
- Plant Kingdom ●●●○○
Classification of plants (algae to angiosperms), plant morphology (root, stem, leaf), photosynthesis (light and dark reactions, C3 and C4 pathways), respiration (glycolysis, Krebs cycle), plant hormones, and transport in plants (xylem, phloem).
- Animal Kingdom ●●●○○
Classification of animals (Porifera to Chordata), morphology and anatomy of earthworm, cockroach, frog, and rabbit, differences between phyla, and structural adaptations across animal groups.
- Reproduction ●●●○○
Asexual reproduction (fission, budding, sporulation, vegetative propagation), sexual reproduction in plants (pollination, fertilization, seed formation), human reproductive system, menstrual cycle, and reproductive health.
Why a 3-day plan beats a 1,200-page prep book
| Dimension | Typical KCET book | This 3-Day Push |
|---|---|---|
| Time to start | Hours of reading before any study starts | Seconds — plan is already here |
| Personalisation | One-size-fits-all | Fits exactly your 3 days |
| Freshness | Printed months ago | Updated for the 2026 cycle · verified 2026-05-30 |
| Weightage signal | Author guess | Derived from last 5 years' papers |
| Cost | ₹500–2,500 | ₹0 |
| Sign-up required | Often (with a trial trap) | None |
Other KCET plans
KCET 3-Day Push — common questions
Is 3 days enough to prepare for KCET? +
In 3 days you cannot cover 25 topics, so this plan does not try. It targets only the handful that historically carry the most marks. The honest answer depends on your starting point, but this 3-day push is built to get the most from the time you have: maximise marks per hour — there is no time for anything but the highest-yield topics.
How many hours a day does this KCET 3-day push need? +
Plan for 8–10 hours of focused study, covering about 8.3 new topics a day. There is no week — work in 90-minute blocks on your heaviest KCET topics, short breaks between, prioritising recall over re-reading.
What should I skip if I am short on time? +
Study only KCET's weight-5 topics — for most candidates the heaviest of Mathematics, Physics, and Chemistry. Everything weight-4 and below is noise at this range; skip it without guilt.
When should I start mock tests on this plan? +
No full mocks. Spend every minute on previous-year KCET questions for your highest-weight topics and memorise their solution patterns.
Already know the pattern? Generate a topic-by-topic plan.
The full personalised roadmap covers weak topics first, tracks completion, and adapts as you mark topics done.
Generate Personalised Plan →