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Updated 2026-04-06 · 2026 Edition

JEE Advanced 1-Year Plan

A complete 365-day plan covering 85 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.

Days
365
Topics
85
Subjects
3
Phases
4
Generate My Personalised Plan ← JEE Advanced Overview
Long-horizon mastery a from-scratch concept pass, two depth passes, and a months-long mock campaign

How to actually use your 365 days

A year to build from the ground up: deep concepts, multiple passes, and a long mock campaign.

Daily study
2–3 hours
New topics / day
≈ 0.23
Approach
a from-scratch concept pass, two depth passes, and a months-long mock campaign

This 1-year plan gives you 365 days to work through 85 weighted JEE Advanced topics across 3 subjects — roughly 0.23 new topics a day at 2–3 hours of focused study. That light daily load is sustainable for a full year without burning out — consistency beats intensity over this long.

JEE Advanced marks are not spread evenly across subjects. Mathematics, Physics, and Chemistry carry the heaviest weightage in recent papers, so this plan front-loads them — so the early months build deep fluency in them while there is time to spare. Cut nothing. Over a year, low-weight topics are exactly where you build the edge most candidates never reach — depth compounds at this length.

A full year means you are not preparing for JEE Advanced so much as mastering it — building every one of the 85 topics from first principles, including the low-weight ones that separate top ranks from safe passes. The year-long failure mode is silent drift — early months feel relaxed, then the second half panics. Run monthly self-tests so a slipping schedule shows up early.

What to prioritise & cut

Cut nothing. Over a year, low-weight topics are exactly where you build the edge most candidates never reach — depth compounds at this length.

Mock tests & revision

Light topic tests in the first months, monthly full-length mocks from the midpoint, shifting to weekly in the final 10–12 weeks. Revisit your error log on a spaced schedule throughout.

Weekly rhythm

Quarter-by-quarter: foundations, depth and problem-solving, full-syllabus revision, then a mock-and-fine-tuning quarter. Re-touch every subject at least three times.

Phase-by-phase plan

52 weeks total

A 365-day plan only works when you sequence it. Here is how the 1-Year Plan breaks down — foundation, depth, then mocks.

  1. 1

    Foundation Q1

    12 weeks

    Concept pass + textbook coverage

    NCERT/standard-text mastery
    Topic-wise notes
    Concept tests
  2. 2

    Advanced Q2

    12 weeks

    Higher-difficulty material, problem journals

    Reference book problems
    Topic-wise journals
    Weak-area drill
  3. 3

    Practice Q3

    14 weeks

    PYQs + topic-wise mocks

    Last 10 years PYQs
    Topic-mock cycles
    Error log
  4. 4

    Mocks + revision Q4

    14 weeks

    Weekly full-length mocks + final revision

    12+ mocks
    Final cheatsheets
    Last-mile drill

Week-by-week schedule

Week Days Topics covered
1 1–7 Physics: Motion in 1D (w5)Chemistry: Some Basic Concepts (w5)
2 8–14 Mathematics: Trigonometry (w5)Physics: Motion in 2D (w5)
3 15–21 Chemistry: Atomic Structure (w5)Mathematics: Limits (w5)
4 22–28 Physics: Laws of Motion (w5)Chemistry: Chemical Bonding (w5)
5 29–35 Mathematics: Continuity (w5)Physics: Work Energy Power (w5)
6 36–42 Chemistry: Thermodynamics (w5)Mathematics: Differentiability (w5)
7 43–49 Physics: Rotational Motion (w5)Chemistry: Equilibrium (w5)
8 50–56 Mathematics: Differentiation (w5)Physics: Gravitation (w5)
9 57–63 Chemistry: Redox (w5)Mathematics: AOD (w5)
10 64–70 Physics: Thermal Properties (w5)Chemistry: Electrochemistry (w5)
11 71–77 Mathematics: Indefinite Integrals (w5)Physics: Thermodynamics (w5)
12 78–84 Chemistry: Kinetics (w5)Mathematics: Definite Integrals (w5)
13 85–91 Physics: SHM (w5)Chemistry: Solutions (w5)
14 92–98 Mathematics: DE (w5)Physics: Waves (w5)
15 99–105 Chemistry: Periodic Table (w5)Mathematics: Vector Algebra (w5)
16 106–112 Physics: Electrostatics (w5)Chemistry: p-Block (w5)
17 113–119 Mathematics: 3D Geometry (w5)Physics: Capacitance (w5)
18 120–126 Chemistry: d-Block (w5)Mathematics: Probability (w5)
19 127–133 Physics: Current Electricity (w5)Chemistry: Metallurgy (w5)
20 134–140 Mathematics: Permutations (w5)Physics: Moving Charges (w5)
21 141–147 Chemistry: Hydrocarbons (w5)Mathematics: Binomial (w5)
22 148–154 Physics: Magnetism (w5)Chemistry: Haloalkanes (w5)
23 155–161 Mathematics: Sequences (w5)Physics: EMI (w5)
24 162–168 Chemistry: Alcohols Phenol Ether (w5)Mathematics: Matrices (w5)
25 169–175 Physics: AC (w5)Chemistry: Aldehydes Ketones (w5)
26 176–182 Mathematics: Determinants (w5)Physics: Ray Optics (w5)
27 183–189 Chemistry: Carboxylic Acids (w5)Mathematics: Complex Numbers (w5)
28 190–196 Physics: Wave Optics (w5)Chemistry: Amines (w5)
29 197–203 Mathematics: Parabola (w5)Physics: Dual Nature (w5)
30 204–210 Chemistry: Coordination Compounds (w5)Mathematics: Ellipse (w5)
31 211–217 Physics: Atoms (w5)Chemistry: Classification (w4)
32 218–224 Mathematics: Hyperbola (w5)Physics: Nuclei (w5)
33 225–231 Chemistry: States of Matter (w4)Mathematics: Circle (w5)
34 232–238 Physics: Units & Measurement (w4)Chemistry: s-Block (w4)
35 239–245 Mathematics: Quadratic Equations (w5)Physics: Mechanical Properties (w4)
36 246–252 Chemistry: f-Block (w4)Mathematics: Progressions (w5)
37 253–259 Physics: Fluid Mechanics (w4)Chemistry: Biomolecules (w4)
38 260–266 Mathematics: Sets Relations (w4)Physics: Kinetic Theory (w4)
39 267–273 Chemistry: Polymers (w4)Mathematics: Inverse Trig (w4)
40 274–280 Physics: EM Waves (w4)Chemistry: Surface Chemistry (w3)
41 281–287 Mathematics: Straight Lines (w4)Physics: Semiconductors (w4)
42 288–294 Chemistry: Colloidal (w3)Mathematics: Mathematical Induction (w4)
43 295–301 Chemistry: Environmental Chemistry (w3)

Subject-wise topic split

Each topic shows its weightage (1–5 dots) and the concepts you'll cover. Higher-weight topics appear first.

Physics

28 topics
  • Motion in 1D ●●●●●

    Kinematics: Motion in 1D — displacement, velocity, acceleration, equations of motion (suvat), and graphical analysis of motion.

  • Motion in 2D ●●●●●

    Projectile Motion & Relative Motion: Motion in 2D including projectile trajectories, relative velocity, and river-boat problems.

  • Laws of Motion ●●●●●

    Newton's Laws of Motion: Inertia, force, momentum conservation, friction (static and kinetic), and pulley problems — free body diagrams and constraint relations.

  • Work Energy Power ●●●●●

    Work, Energy & Power: Work done by forces, kinetic and potential energy, work-energy theorem, conservation of mechanical energy, and power calculations.

  • Rotational Motion ●●●●●

    Rotational Mechanics: Angular displacement, velocity, acceleration, moment of inertia, torque, angular momentum, and conservation laws in rotating systems.

  • Gravitation ●●●●●

    Gravitation: Newton's law of gravitation, gravitational field and potential, Kepler's laws, orbital velocity, escape velocity, and satellite motion.

  • Thermal Properties ●●●●●

    Thermal Properties: Heat transfer (conduction, convection, radiation), thermal expansion, calorimetry, Newton's law of cooling, and specific heat capacity.

  • Thermodynamics ●●●●●

    Thermodynamics: Laws of thermodynamics, heat engines, refrigerators, entropy, isothermal and adiabatic processes, and thermodynamic cycles.

  • + 20 more topics on the full roadmap →

Chemistry

29 topics
  • Some Basic Concepts ●●●●●

    Mole Concept & Stoichiometry: Mole, molar mass, empirical and molecular formulas, limiting reagent, percent composition, and titration calculations.

  • Atomic Structure ●●●●●

    Atomic Structure: Quantum numbers, electron configurations, de Broglie hypothesis, Heisenberg uncertainty, Schrödinger equation, and atomic spectra.

  • Chemical Bonding ●●●●●

    Chemical Bonding: Ionic, covalent, metallic bonding, VSEPR theory, hybridisation (sp, sp², sp³, sp³d, sp³d²), MOT basics, bond parameters, and hydrogen bonding.

  • Thermodynamics ●●●●●

    Thermodynamics: System and surroundings, internal energy, enthalpy, Hess's law, spontaneity, Gibbs free energy, entropy, and thermochemical calculations.

  • Equilibrium ●●●●●

    Chemical Equilibrium: Law of mass action, equilibrium constant, Le Chatelier's principle, ionic equilibrium, pH, buffer solutions, solubility product, and common ion effect.

  • Redox ●●●●●

    Redox Reactions: Oxidation and reduction, oxidation numbers, balancing redox equations (oxidation number and ion-electron methods), and electrochemical series.

  • Electrochemistry ●●●●●

    Electrochemistry: Galvanic and electrolytic cells, Nernst equation, electrode potentials, Kohlrausch law, Faraday's laws of electrolysis, and batteries.

  • Kinetics ●●●●●

    Chemical Kinetics: Rate of reaction, rate laws, order and molecularity, integrated rate equations (zero, first, second order), Arrhenius equation, and reaction mechanisms.

  • + 21 more topics on the full roadmap →

Mathematics

28 topics
  • Trigonometry ●●●●●

    Trigonometry: Trigonometric ratios, identities, equations, solutions of triangles, inverse trigonometry values, andHeight and Distance applications.

  • Limits ●●●●●

    Limits: Algebraic and trigonometric limits, L'Hospital's rule, limits at infinity, indeterminate forms (0/0, ∞/∞), and sandwich theorem.

  • Continuity ●●●●●

    Continuity: Continuity at a point and interval, types of discontinuities, algebra of continuous functions, and intermediate value theorem.

  • Differentiability ●●●●●

    Differentiability: Derivative as rate measure, left and right derivatives, relationship between continuity and differentiability, and differentiable vs non-differentiable functions.

  • Differentiation ●●●●●

    Differentiation: Derivatives of standard functions, product, quotient, chain rules, implicit and parametric differentiation, logarithmic differentiation, and derivatives of inverse functions.

  • AOD ●●●●●

    Applications of Derivatives (AOD): Tangents and normals, increasing/decreasing functions, maxima and minima (first and second derivative tests), and Rolle's and Lagrange's mean value theorems.

  • Indefinite Integrals ●●●●●

    Indefinite Integrals: Integration as antiderivative, standard integrals, substitution, partial fractions, integration by parts, and trigonometric integrals.

  • Definite Integrals ●●●●●

    Definite Integrals: Fundamental theorem of calculus, properties, evaluation by substitution and parts, definite integrals as limit of sum, and area under curves.

  • + 20 more topics on the full roadmap →

Why a 365-day plan beats a 1,200-page prep book

DimensionTypical JEE Advanced bookThis 1-Year Plan
Time to startHours of reading before any study startsSeconds — plan is already here
PersonalisationOne-size-fits-allFits exactly your 365 days
FreshnessPrinted months agoUpdated for the 2026 cycle · verified 2026-04-06
Weightage signalAuthor guessDerived from last 5 years' papers
Cost₹500–2,500₹0
Sign-up requiredOften (with a trial trap)None

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JEE Advanced 1-Year Plan — common questions

Is 365 days enough to prepare for JEE Advanced? +

A full year means you are not preparing for JEE Advanced so much as mastering it — building every one of the 85 topics from first principles, including the low-weight ones that separate top ranks from safe passes. The honest answer depends on your starting point, but this 1-year plan is built to get the most from the time you have: a year to build from the ground up: deep concepts, multiple passes, and a long mock campaign.

How many hours a day does this JEE Advanced 1-year plan need? +

Plan for 2–3 hours of focused study, covering about 0.23 new topics a day. Quarter-by-quarter: foundations, depth and problem-solving, full-syllabus revision, then a mock-and-fine-tuning quarter. Re-touch every subject at least three times.

What should I skip if I am short on time? +

Cut nothing. Over a year, low-weight topics are exactly where you build the edge most candidates never reach — depth compounds at this length.

When should I start mock tests on this plan? +

Light topic tests in the first months, monthly full-length mocks from the midpoint, shifting to weekly in the final 10–12 weeks. Revisit your error log on a spaced schedule throughout.

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 →