AP EAPCET 1-Year Plan
A complete 365-day plan covering 45 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.
- Days
- 365
- Topics
- 45
- Subjects
- 3
- Phases
- 4
Phase-by-phase plan
52 weeks totalA 365-day plan only works when you sequence it. Here is how the 1-Year Plan breaks down — foundation, depth, then mocks.
- 1
Foundation Q1
12 weeksConcept pass + textbook coverage
NCERT/standard-text masteryTopic-wise notesConcept tests - 2
Advanced Q2
12 weeksHigher-difficulty material, problem journals
Reference book problemsTopic-wise journalsWeak-area drill - 3
Practice Q3
14 weeksPYQs + topic-wise mocks
Last 10 years PYQsTopic-mock cyclesError log - 4
Mocks + revision Q4
14 weeksWeekly full-length mocks + final revision
12+ mocksFinal cheatsheetsLast-mile drill
Week-by-week schedule
| Week | Days | Topics covered |
|---|---|---|
| 1 | 1–7 | Mathematics: Complex Numbers and Quadratic Equations (w3) |
| 2 | 8–14 | Physics: Physics and Measurement (w3) |
| 3 | 15–21 | Chemistry: Atomic Structure (w3) |
| 4 | 22–28 | Mathematics: Matrices and Determinants (w3) |
| 5 | 29–35 | Physics: Kinematics (w3) |
| 6 | 36–42 | Chemistry: Chemical Bonding and Molecular Structure (w3) |
| 7 | 43–49 | Mathematics: Permutations and Combinations (w3) |
| 8 | 50–56 | Physics: Laws of Motion (w3) |
| 9 | 57–63 | Chemistry: Classification of Elements and Periodicity (w3) |
| 10 | 64–70 | Mathematics: Sequence and Series (w3) |
| 11 | 71–77 | Physics: Work, Energy and Power (w3) |
| 12 | 78–84 | Chemistry: States of Matter (w3) |
| 13 | 85–91 | Mathematics: Binomial Theorem (w3) |
| 14 | 92–98 | Physics: Rotational Motion (w3) |
| 15 | 99–105 | Chemistry: Thermodynamics (w3) |
| 16 | 106–112 | Mathematics: Trigonometric Functions and Identities (w3) |
| 17 | 113–119 | Physics: Gravitation (w3) |
| 18 | 120–126 | Chemistry: Chemical Equilibrium (w3) |
| 19 | 127–133 | Mathematics: Straight Lines and Pair of Linear Equations (w3) |
| 20 | 134–140 | Physics: Properties of Bulk Matter (w3) |
| 21 | 141–147 | Chemistry: Chemical Kinetics (w3) |
| 22 | 148–154 | Mathematics: Conic Sections (w3) |
| 23 | 155–161 | Physics: Thermodynamics (w3) |
| 24 | 162–168 | Chemistry: Redox Reactions and Electrochemistry (w3) |
| 25 | 169–175 | Mathematics: Three-Dimensional Geometry (w3) |
| 26 | 176–182 | Physics: Kinetic Theory of Gases (w3) |
| 27 | 183–189 | Chemistry: Surface Chemistry (w3) |
| 28 | 190–196 | Mathematics: Vector Algebra (w3) |
| 29 | 197–203 | Physics: Oscillations and Waves (w3) |
| 30 | 204–210 | Chemistry: s-Block and Hydrogen (w3) |
| 31 | 211–217 | Mathematics: Differential Calculus (w3) |
| 32 | 218–224 | Physics: Electrostatics (w3) |
| 33 | 225–231 | Chemistry: p-Block Elements (w3) |
| 34 | 232–238 | Mathematics: Applications of Derivatives (w3) |
| 35 | 239–245 | Physics: Current Electricity (w3) |
| 36 | 246–252 | Chemistry: d and f-Block Elements (w3) |
| 37 | 253–259 | Mathematics: Integral Calculus (w3) |
| 38 | 260–266 | Physics: Magnetic Effects (w3) |
| 39 | 267–273 | Chemistry: Organic Chemistry — Basic Principles (w3) |
| 40 | 274–280 | Mathematics: Differential Equations (w3) |
| 41 | 281–287 | Physics: Electromagnetic Induction and AC (w3) |
| 42 | 288–294 | Chemistry: Hydrocarbons and Haloalkanes (w3) |
| 43 | 295–301 | Mathematics: Probability and Statistics (w3) |
| 44 | 302–308 | Physics: Optics and Modern Physics (w3) |
| 45 | 309–315 | Chemistry: Alcohols, Phenols, Ethers, Carbonyls and Biomolecules (w3) |
Subject-wise topic split
Each topic shows its weightage (1–5 dots) and the concepts you'll cover. Higher-weight topics appear first.
Mathematics
15 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.
- Conic Sections ●●●○○
Circle (equation, tangents, normals), parabola (standard forms, focal properties), ellipse (eccentricity, latus rectum), hyperbola (asymptotes, rectangular hyperbola), and standard equations with transformations.
- + 7 more topics on the full roadmap →
Physics
15 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.
- Properties of Bulk Matter ●●●○○
Elasticity (stress-strain, Hooke's law, Young's modulus), fluid mechanics (Pascal's law, Bernoulli's principle, viscosity, surface tension, capillarity), and Archimedes' principle.
- Thermodynamics ●●●○○
Heat, temperature, calorimetry, heat transfer (conduction, convection, radiation), first and second law of thermodynamics, specific heat capacity, and thermodynamic processes.
- + 7 more topics on the full roadmap →
Chemistry
15 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.
- Chemical Kinetics ●●●○○
Rate of reaction, rate law and order, molecularity, zero, first, and second-order reactions, Arrhenius equation, activation energy, catalyst role, and half-life calculations.
- Redox Reactions and Electrochemistry ●●●○○
Oxidation-reduction concepts, balancing redox equations, electrochemical cells (galvanic, electrolytic), Nernst equation, standard electrode potentials, Faraday's laws of electrolysis, and corrosion prevention.
- + 7 more topics on the full roadmap →
Why a 365-day plan beats a 1,200-page prep book
| Dimension | Typical AP EAPCET book | This 1-Year Plan |
|---|---|---|
| Time to start | Hours of reading before any study starts | Seconds — plan is already here |
| Personalisation | One-size-fits-all | Fits exactly your 365 days |
| Freshness | Printed months ago | Rebuilt every deploy · verified 2026-05-09 |
| Weightage signal | Author guess | Derived from last 5 years' papers |
| Cost | ₹500–2,500 | ₹0 |
| Sign-up required | Often (with a trial trap) | None |
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