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Updated 2026-04-06 · 2026 Edition

JEE Main 2-Month Plan

A complete 60-day plan covering 81 highest-weightage topics — prioritised by subject weight, not alphabet. No signup, no fees.

Days
60
Topics
81
Subjects
3
Phases
3
Structured build one full pass, one structured revision cycle, and a weekly mock series

How to actually use your 60 days

Full coverage, one real revision cycle, and a weekly mock series — the standard serious-attempt window.

Daily study
4–5 hours
New topics / day
≈ 1.4
Approach
one full pass, one structured revision cycle, and a weekly mock series

This 2-month plan gives you 60 days to work through 81 weighted JEE Main topics across 3 subjects — roughly 1.4 new topics a day at 4–5 hours of focused study. That is a sustainable pace that leaves real room for revision instead of just first-time coverage.

JEE Main marks are not spread evenly across subjects. Physics, Mathematics, and Chemistry carry the heaviest weightage in recent papers, so this plan front-loads them — so they anchor the first pass and earn the most revision time later. Cover the entire JEE Main syllabus once, then let weightage — led by Physics, Mathematics, and Chemistry — decide what earns a second and third pass. Nothing is skipped, only deprioritised.

60 days is enough to cover all 81 JEE Main topics once, revise them once more, and build a genuine mock-test habit on top. The risk is plateauing after the first pass. Block out the revision cycle in your calendar now, before mocks crowd it out.

What to prioritise & cut

Cover the entire JEE Main syllabus once, then let weightage — led by Physics, Mathematics, and Chemistry — decide what earns a second and third pass. Nothing is skipped, only deprioritised.

Mock tests & revision

Topic-wise JEE Main tests while you learn, then weekly full-length mocks once the first pass is done. Track sectional timing, not just the total.

Weekly rhythm

Roughly the first 60% of the timeline on the first pass of the JEE Main syllabus, the next 25% on weight-prioritised revision, the last 15% on full mocks and an error-log review.

Phase-by-phase plan

8 weeks total

A 60-day plan only works when you sequence it. Here is how the 2-Month Plan breaks down — foundation, depth, then mocks.

  1. 1

    Foundation

    4 weeks

    Concept building across full syllabus

    ~2 topics/day
    Cheatsheet per subject
    Topic-wise quizzes
  2. 2

    Practice

    3 weeks

    Topic-wise problem sets, no new concepts

    100+ problems/subject
    Daily timed drills
    Error log
  3. 3

    Mocks + revision

    1 week

    3-4 full-length mocks + analysis

    Mock cycle
    Final formula sheet

Week-by-week schedule

Week Days Topics covered
1 1–7 Physics: Laws of Motion (w5)Chemistry: Chemical Bonding (w5)Mathematics: Trigonometry (w5)Physics: Work Energy Power (w5)Chemistry: Thermodynamics (w5)Mathematics: Limits (w5)Physics: Thermodynamics (w5)Chemistry: Atomic Structure (w4)Mathematics: Differentiation (w5)
2 8–14 Physics: Electrostatics (w5)Chemistry: Equilibrium (w4)Mathematics: AOD (w5)Physics: Current Electricity (w5)Chemistry: Electrochemistry (w4)Mathematics: Complex Numbers (w5)Physics: EMI (w5)Chemistry: Kinetics (w4)Mathematics: Continuity (w4)
3 15–21 Physics: Ray Optics (w5)Chemistry: Periodic Table (w4)Mathematics: Differentiability (w4)Physics: Dual Nature (w5)Chemistry: p-Block (w4)Mathematics: Indefinite Integrals (w4)Physics: Motion in 1D (w4)Chemistry: d-Block (w4)Mathematics: Definite Integrals (w4)
4 22–28 Physics: Motion in 2D (w4)Chemistry: Hydrocarbons (w4)Mathematics: Vector Algebra (w4)Physics: Rotational Motion (w4)Chemistry: Some Basic Concepts (w3)Mathematics: 3D Geometry (w4)Physics: Gravitation (w4)Chemistry: Classification (w3)Mathematics: Probability (w4)
5 29–35 Physics: Thermal Properties (w4)Chemistry: States of Matter (w3)Mathematics: Sequences (w4)Physics: SHM (w4)Chemistry: Redox (w3)Mathematics: Matrices (w4)Physics: Waves (w4)Chemistry: Solutions (w3)Mathematics: Parabola (w4)
6 36–42 Physics: Capacitance (w4)Chemistry: s-Block (w3)Mathematics: Circle (w4)Physics: Moving Charges (w4)Chemistry: Metallurgy (w3)Mathematics: Sets Relations (w3)Physics: Magnetism (w4)Chemistry: Haloalkanes (w3)Mathematics: Inverse Trig (w3)
7 43–49 Physics: AC (w4)Chemistry: Alcohols Phenol Ether (w3)Mathematics: DE (w3)Physics: Wave Optics (w4)Chemistry: Aldehydes Ketones (w3)Mathematics: Permutations (w3)Physics: Units & Measurement (w3)Chemistry: Carboxylic Acids (w3)Mathematics: Binomial (w3)
8 50–56 Physics: Mechanical Properties (w3)Chemistry: Amines (w3)Mathematics: Determinants (w3)Physics: Fluid Mechanics (w3)Chemistry: Biomolecules (w3)Mathematics: Ellipse (w3)Physics: Kinetic Theory (w3)Chemistry: Surface Chemistry (w2)Mathematics: Hyperbola (w3)
9 57–60 Physics: EM Waves (w3)Chemistry: Colloidal (w2)Mathematics: Straight Lines (w3)Physics: Atoms (w3)Chemistry: f-Block (w2)Physics: Nuclei (w3)Chemistry: Polymers (w2)Physics: Semiconductors (w3)Chemistry: Environmental Chemistry (w2)

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
  • Laws of Motion ●●●●●

    Newton's three laws, free body diagrams, friction, pulley problems, and application of momentum conservation.

  • Work Energy Power ●●●●●

    Work done by forces, kinetic and potential energy, work-energy theorem, and power calculations.

  • Thermodynamics ●●●●●

    Laws of thermodynamics, specific heat capacities, isothermal and adiabatic processes, and heat engines.

  • Electrostatics ●●●●●

    Coulomb's law, electric field, electric dipole, Gauss's law, electric potential, and capacitance.

  • Current Electricity ●●●●●

    Electric current, Ohm's law, resistivity, combination of resistors, Kirchhoff's laws, and circuit analysis.

  • EMI ●●●●●

    Electromagnetic induction — Faraday's law, Lenz's law, motional EMF, self and mutual inductance, and AC generators.

  • Ray Optics ●●●●●

    Reflection, refraction, spherical mirrors, lenses, prism, total internal reflection, and optical instruments.

  • Dual Nature ●●●●●

    Photoelectric effect, Einstein's equation, photon concept, de Broglie wavelength, and wave-particle duality.

  • + 20 more topics on the full roadmap →

Chemistry

28 topics
  • Chemical Bonding ●●●●●

    Ionic, covalent, metallic, hydrogen, and van der Waals bonds; VSEPR theory, hybridisation, MOT, and dipole moment.

  • Thermodynamics ●●●●●

    Internal energy, enthalpy, Hess's law, Gibbs free energy, spontaneity, and thermochemical calculations.

  • Atomic Structure ●●●●○

    Bohr model, quantum numbers, Aufbau principle, Hund's rule, Pauli's exclusion principle, and electronic configuration.

  • Equilibrium ●●●●○

    Chemical equilibrium, Le Chatelier's principle, Kp and Kc, ionic equilibrium, pH, buffers, and solubility product.

  • Electrochemistry ●●●●○

    Galvanic cells, electrolytic cells, Nernst equation, conductance, Faraday's laws, and batteries.

  • Kinetics ●●●●○

    Rate of reaction, rate laws, order, molecularity, Arrhenius equation, and half-life calculations.

  • Periodic Table ●●●●○

    Trends in atomic radius, ionisation energy, electronegativity, electron affinity across periods and groups; s, p, d, f blocks.

  • p-Block ●●●●○

    Group 13-18 elements — boron, carbon family, nitrogen, oxygen, halogen, and noble gas compounds.

  • + 20 more topics on the full roadmap →

Mathematics

25 topics
  • Trigonometry ●●●●●

    Trigonometric ratios, identities, equations, inverse trig, and solution of triangles using sine and cosine rules.

  • Limits ●●●●●

    Limits of functions, L'Hospital's rule, limits of indeterminate forms, and standard limit formulas.

  • Differentiation ●●●●●

    Derivatives of various functions, product, quotient, chain rules, and implicit differentiation.

  • AOD ●●●●●

    Application of derivatives — equations of tangent and normal, finding maxima and minima, monotonicity, and optimisation problems.

  • Complex Numbers ●●●●●

    Complex numbers in algebraic form, Argand plane, modulus, argument, and De Moivre's theorem.

  • Continuity ●●●●○

    Continuity and differentiability, intermediate value theorem, and behavior of functions at points.

  • Differentiability ●●●●○

    Relationship between continuity and differentiability, Rolle's and Lagrange's mean value theorems, and derivative as a rate measure.

  • Indefinite Integrals ●●●●○

    Integration as antiderivative, standard integration formulas, substitution method, partial fractions, and integration by parts.

  • + 17 more topics on the full roadmap →

Why a 60-day plan beats a 1,200-page prep book

DimensionTypical JEE Main bookThis 2-Month Plan
Time to startHours of reading before any study startsSeconds — plan is already here
PersonalisationOne-size-fits-allFits exactly your 60 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

Other JEE Main plans

JEE Main 2-Month Plan — common questions

Is 60 days enough to prepare for JEE Main? +

60 days is enough to cover all 81 JEE Main topics once, revise them once more, and build a genuine mock-test habit on top. The honest answer depends on your starting point, but this 2-month plan is built to get the most from the time you have: full coverage, one real revision cycle, and a weekly mock series — the standard serious-attempt window.

How many hours a day does this JEE Main 2-month plan need? +

Plan for 4–5 hours of focused study, covering about 1.4 new topics a day. Roughly the first 60% of the timeline on the first pass of the JEE Main syllabus, the next 25% on weight-prioritised revision, the last 15% on full mocks and an error-log review.

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

Cover the entire JEE Main syllabus once, then let weightage — led by Physics, Mathematics, and Chemistry — decide what earns a second and third pass. Nothing is skipped, only deprioritised.

When should I start mock tests on this plan? +

Topic-wise JEE Main tests while you learn, then weekly full-length mocks once the first pass is done. Track sectional timing, not just the total.

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 →