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Updated 2026-04-06 · 2026 Edition

JEE Advanced 2-Year Plan

A complete 730-day plan covering 85 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.

Days
730
Topics
85
Subjects
3
Phases
4
Generate My Personalised Plan ← JEE Advanced Overview
Two-year deep build a foundations year, a mastery-and-depth year, and a sustained mock campaign across both

How to actually use your 730 days

The long game: build from zero across two cycles, with depth and a sustained mock habit most candidates never reach.

Daily study
1.5–2.5 hours
New topics / day
≈ 0.12
Approach
a foundations year, a mastery-and-depth year, and a sustained mock campaign across both

This 2-year plan gives you 730 days to work through 85 weighted JEE Advanced topics across 3 subjects — roughly 0.12 new topics a day at 1.5–2.5 hours of focused study. That gentle daily load is the whole advantage of a two-year run — you build mastery slowly enough that it actually sticks.

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 first year builds genuine mastery of them, not just familiarity. Nothing is cut and nothing is rushed. At this length the differentiator is depth on the hardest, lowest-frequency topics and relentless revision — the work most candidates skip.

Two years is a genuine head start. You can build JEE Advanced from zero in year one and convert understanding into rank-grade speed and accuracy in year two — every one of the 85 topics, twice over, with room for the hardest material. The two-year risk is losing momentum in the long flat middle. Set quarterly milestones and treat year-one mocks as checkpoints, or the early lead quietly evaporates.

What to prioritise & cut

Nothing is cut and nothing is rushed. At this length the differentiator is depth on the hardest, lowest-frequency topics and relentless revision — the work most candidates skip.

Mock tests & revision

Year one: topic and sectional tests only, building accuracy. Year two: monthly then fortnightly then weekly full-length mocks, with a disciplined error log you actually revisit.

Weekly rhythm

Think in semesters, not weeks: build, deepen, revise, simulate — repeated across two cycles so every subject is seen many times on a spaced schedule.

Phase-by-phase plan

104 weeks total

A 730-day plan only works when you sequence it. Here is how the 2-Year Plan breaks down — foundation, depth, then mocks.

  1. 1

    Y1 Foundation

    24 weeks

    Concept depth + NCERT-level coverage

    Subject-wise mastery
    Topic notes
    Monthly tests
  2. 2

    Y1 Advanced

    28 weeks

    Reference-book level problems + first PYQ pass

    Topic-wise problem mastery
    PYQ pass 1
    Weak-area journal
  3. 3

    Y2 Practice

    26 weeks

    PYQ deep-dive + topic-wise mocks

    PYQ pass 2
    Topic-mock cycles
    Concept-gap closure
  4. 4

    Y2 Mocks + final

    26 weeks

    Weekly full-length mocks + final revision

    20+ mocks
    Last-mile cheatsheets
    Exam-mode drills

Week-by-week schedule

Week Days Topics covered
1 1–7 Physics: Motion in 1D (w5)
2 8–14 Chemistry: Some Basic Concepts (w5)
3 15–21 Mathematics: Trigonometry (w5)
4 22–28 Physics: Motion in 2D (w5)
5 29–35 Chemistry: Atomic Structure (w5)
6 36–42 Mathematics: Limits (w5)
7 43–49 Physics: Laws of Motion (w5)
8 50–56 Chemistry: Chemical Bonding (w5)
9 57–63 Mathematics: Continuity (w5)
10 64–70 Physics: Work Energy Power (w5)
11 71–77 Chemistry: Thermodynamics (w5)
12 78–84 Mathematics: Differentiability (w5)
13 85–91 Physics: Rotational Motion (w5)
14 92–98 Chemistry: Equilibrium (w5)
15 99–105 Mathematics: Differentiation (w5)
16 106–112 Physics: Gravitation (w5)
17 113–119 Chemistry: Redox (w5)
18 120–126 Mathematics: AOD (w5)
19 127–133 Physics: Thermal Properties (w5)
20 134–140 Chemistry: Electrochemistry (w5)
21 141–147 Mathematics: Indefinite Integrals (w5)
22 148–154 Physics: Thermodynamics (w5)
23 155–161 Chemistry: Kinetics (w5)
24 162–168 Mathematics: Definite Integrals (w5)
25 169–175 Physics: SHM (w5)
26 176–182 Chemistry: Solutions (w5)
27 183–189 Mathematics: DE (w5)
28 190–196 Physics: Waves (w5)
29 197–203 Chemistry: Periodic Table (w5)
30 204–210 Mathematics: Vector Algebra (w5)
31 211–217 Physics: Electrostatics (w5)
32 218–224 Chemistry: p-Block (w5)
33 225–231 Mathematics: 3D Geometry (w5)
34 232–238 Physics: Capacitance (w5)
35 239–245 Chemistry: d-Block (w5)
36 246–252 Mathematics: Probability (w5)
37 253–259 Physics: Current Electricity (w5)
38 260–266 Chemistry: Metallurgy (w5)
39 267–273 Mathematics: Permutations (w5)
40 274–280 Physics: Moving Charges (w5)
41 281–287 Chemistry: Hydrocarbons (w5)
42 288–294 Mathematics: Binomial (w5)
43 295–301 Physics: Magnetism (w5)
44 302–308 Chemistry: Haloalkanes (w5)
45 309–315 Mathematics: Sequences (w5)
46 316–322 Physics: EMI (w5)
47 323–329 Chemistry: Alcohols Phenol Ether (w5)
48 330–336 Mathematics: Matrices (w5)
49 337–343 Physics: AC (w5)
50 344–350 Chemistry: Aldehydes Ketones (w5)
51 351–357 Mathematics: Determinants (w5)
52 358–364 Physics: Ray Optics (w5)
53 365–371 Chemistry: Carboxylic Acids (w5)
54 372–378 Mathematics: Complex Numbers (w5)
55 379–385 Physics: Wave Optics (w5)
56 386–392 Chemistry: Amines (w5)
57 393–399 Mathematics: Parabola (w5)
58 400–406 Physics: Dual Nature (w5)
59 407–413 Chemistry: Coordination Compounds (w5)
60 414–420 Mathematics: Ellipse (w5)
61 421–427 Physics: Atoms (w5)
62 428–434 Chemistry: Classification (w4)
63 435–441 Mathematics: Hyperbola (w5)
64 442–448 Physics: Nuclei (w5)
65 449–455 Chemistry: States of Matter (w4)
66 456–462 Mathematics: Circle (w5)
67 463–469 Physics: Units & Measurement (w4)
68 470–476 Chemistry: s-Block (w4)
69 477–483 Mathematics: Quadratic Equations (w5)
70 484–490 Physics: Mechanical Properties (w4)
71 491–497 Chemistry: f-Block (w4)
72 498–504 Mathematics: Progressions (w5)
73 505–511 Physics: Fluid Mechanics (w4)
74 512–518 Chemistry: Biomolecules (w4)
75 519–525 Mathematics: Sets Relations (w4)
76 526–532 Physics: Kinetic Theory (w4)
77 533–539 Chemistry: Polymers (w4)
78 540–546 Mathematics: Inverse Trig (w4)
79 547–553 Physics: EM Waves (w4)
80 554–560 Chemistry: Surface Chemistry (w3)
81 561–567 Mathematics: Straight Lines (w4)
82 568–574 Physics: Semiconductors (w4)
83 575–581 Chemistry: Colloidal (w3)
84 582–588 Mathematics: Mathematical Induction (w4)
85 589–595 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 730-day plan beats a 1,200-page prep book

DimensionTypical JEE Advanced bookThis 2-Year Plan
Time to startHours of reading before any study startsSeconds — plan is already here
PersonalisationOne-size-fits-allFits exactly your 730 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 2-Year Plan — common questions

Is 730 days enough to prepare for JEE Advanced? +

Two years is a genuine head start. You can build JEE Advanced from zero in year one and convert understanding into rank-grade speed and accuracy in year two — every one of the 85 topics, twice over, with room for the hardest material. The honest answer depends on your starting point, but this 2-year plan is built to get the most from the time you have: the long game: build from zero across two cycles, with depth and a sustained mock habit most candidates never reach.

How many hours a day does this JEE Advanced 2-year plan need? +

Plan for 1.5–2.5 hours of focused study, covering about 0.12 new topics a day. Think in semesters, not weeks: build, deepen, revise, simulate — repeated across two cycles so every subject is seen many times on a spaced schedule.

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

Nothing is cut and nothing is rushed. At this length the differentiator is depth on the hardest, lowest-frequency topics and relentless revision — the work most candidates skip.

When should I start mock tests on this plan? +

Year one: topic and sectional tests only, building accuracy. Year two: monthly then fortnightly then weekly full-length mocks, with a disciplined error log you actually revisit.

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 →