WBJEE Exam Syllabus 2026: Complete Guide for Aspiring Students

By Easylearn Admin September 26, 2025
WBJEE exam Syllabus 2026

Every year, thousands of aspirants in West Bengal and neighboring regions compete in the West Bengal Joint Entrance Examination (WBJEE) to seek admission into engineering, technology, pharmacy, and architecture courses. As 2026 approaches, a solid understanding of the WBJEE 2026 syllabus becomes indispensable — it serves as your roadmap to what topics to cover, how to allocate time, and how to strategize your study.

In this blog, we will dive deep into the WBJEE 2026 syllabus: the exam structure and pattern, a subject-wise breakdown of topics, weightage hints, how to use it to prepare, and tips to maximize your outcome. At the end, we also address frequently asked questions.

(Note: Unless or until the official board releases changes, this syllabus is based on the latest available updates and past patterns.)

Exam Overview & Pattern (WBJEE 2026)

Before delving into the syllabus, it is crucial to know the exam format and how questions are structured. That shapes how you should approach the topics.

What is WBJEE?

WBJEE — the West Bengal Joint Entrance Examination — is a state-level competitive exam conducted by the West Bengal Joint Entrance Examinations Board (WBJEEB). It is used for admission to undergraduate courses in engineering, technology, pharmacy, and architecture in colleges in West Bengal and certain affiliated institutions.

Important facts:

  • It is an offline (pen & paper) exam, using OMR sheets for responses.
  • The total duration is 4 hours, split as 2 hours for Paper I (Mathematics) and 2 hours for Paper II (Physics + Chemistry combined).
  • The medium is English or Bengali (candidates may choose).
  • Total number of questions = 155 across all subjects.
  • Total marks = 200.

Papers, Sections & Question Types

WBJEE is divided into two papers:

  • Paper I: Mathematics
  • Paper II: Physics + Chemistry (combined in a single paper, though the questions will clearly identify subject)

Each paper uses multiple choice questions (MCQs), with three categories of MCQs differentiated by marks and negative marking rules.

Here is a summary of the pattern:

Subject / Paper Number of Questions Marks Comment / Category Details
Mathematics (Paper I) 75 questions 100 marks Combination of Category I, II, III questions
Physics 40 questions 50 marks Combined in Paper II
Chemistry 40 questions 50 marks Combined in Paper II

Categories & negative marking:

  • Category I questions: +1 mark for correct answer, -0.25 mark for wrong answer (1/4 negative)

  • Category II questions: +2 marks for correct answer, -0.5 mark penalty for incorrect answer

  • Category III questions: +2 marks for correct answer, no negative marking; these might have more than one correct option (multi-option correct

Because of this variation, you must practice carefully with negative marking in mind.

Also note:

  • Candidates who appear in both Paper I and Paper II are eligible for a General Merit Rank (GMR) and Pharmacy Merit Rank (PMR). Those who appear only in Paper II get a PMR only.

  • Aspirants for pharmacy courses may sometimes take only the Physics + Chemistry portion, depending on institution-specific rules.

Syllabus Basis & Overlaps

The WBJEE syllabus is largely drawn from Class 11 and Class 12 curriculum in Physics, Chemistry, and Mathematics (as prescribed by WBCHSE or equivalent board). Because of that, many topics overlap with the CBSE / State boards and even JEE Main syllabus, though the pattern, weightage, and depth may differ.

A few key things to remember:

  • No question will be asked outside the topics enumerated in the official / prescribed syllabus.
  • There may be tricky or twist questions, but the underlying concept will be within syllabus boundaries.
  • Because the syllabus (for many years) remains stable, past years’ papers are powerful tools for predicting which subtopics get more focus.

WBJEE 2026 Syllabus: Subject-Wise Detailed Topics

In this section, we break down each subject (Physics, Chemistry, Mathematics) into its constituent chapters and subtopics, with suggested emphasis based on past trends.

Physics Syllabus 2026

According to sources, the WBJEE Physics syllabus has 22 chapters covering a broad range of topics in mechanics, thermodynamics, electromagnetism, optics, modern physics, etc.

Below is a representative list (with subtopics) that aspirants need to master:

  1. Physical World, Measurements, Units & Dimensions

    • Fundamental & derived units, dimensional analysis

    • Significant figures, error & uncertainty

  2. Kinematics

    • Motion in one and two dimensions

    • Velocity, acceleration, displacement, trajectories

  3. Laws of Motion

    • Newton’s laws, force, momentum, impulse

    • Friction, equilibrium

  4. The Motion of the Centre of Mass, Connected Systems, Friction

    • Systems of particles, center of mass, motion under internal & external forces

    • Pulley, string, connected bodies

  5. Gravitation

    • Universal law of gravitation, gravitational potential, acceleration

    • Orbits, escape velocity

  6. Bulk Properties of Matter

    • Elasticity, stress, strain, Hooke’s law

    • Pressure in fluids, Pascal’s principle

  7. Viscosity

    • Viscous forces, terminal velocity, Stoke’s law

  8. Thermodynamics

    • Zeroth, First, Second law

    • Heat, work, internal energy, entropy

  9. Kinetic Theory of Gases

    • Gas laws, Boltzmann constant, molecular speeds distributions

  10. Oscillations & Waves

    • Simple harmonic motion

    • Wave motion, superposition, sound

  11. Electrostatics

    • Coulomb’s law, electric field, potential, Gauss’s law

  12. Current Electricity

    • Ohm’s law, circuits, resistors, series/parallel

  13. Magnetic Effects of Current

    • Biot–Savart law, Ampere’s law, magnetic fields in conductors

  14. Magnetism

    • Magnetic properties of materials, hysteresis

  15. Electromagnetic Induction & Alternating Current

    • Faraday’s law, Lenz’s law, induced EMF

    • AC circuits, RMS values

  16. Electromagnetic Waves

    • Wave propagation, spectrum

  17. Optics I (Ray Optics)

    • Reflection, refraction, lenses, mirrors, optical instruments

  18. Optics II (Wave Optics)

    • Interference, diffraction, polarization

  19. Particle Nature of Light & Wave-Particle Dualism

    • Photoelectric effect, photons, de Broglie waves

  20. Atomic Physics

    • Atomic models (Bohr), energy levels

  21. Nuclear Physics

    • Radioactivity, nuclear reactions, decay

  22. Solid State & Electronics

    • Semiconductors, band theory, diode, transistor basics

This set of topics broadly matches what many exam preparation sites list.

Emphasis / High-Weight Topics: Based on analysis of past years, the following tend to appear more often:

  • Laws of Motion & Kinematics

  • Gravitation

  • Thermodynamics & Kinetic Theory

  • Current Electricity & Electromagnetism

  • Optics (especially ray optics)

  • Modern Physics (atomic, nuclear)

Thus, while covering everything, allocate extra time to these areas.

Chemistry Syllabus 2026

The Chemistry syllabus in WBJEE 2026 is reported to consist of 27 chapters spanning physical, inorganic, and organic chemistry. Testbook+3Careers360 Engineering+3Shiksha+3

Below is a comprehensive breakdown of topics:

A. Physical Chemistry

  1. Molecules & Chemical Arithmetic

    • Mole concept, stoichiometry, molar masses

  2. Atomic Structure

    • Quantum numbers, orbitals, electronic configuration

  3. Radioactivity & Nuclear Chemistry

    • Types of decay, half-life, nuclear reactions

  4. The Periodic Table & Chemical Families

    • Periodic trends, group behavior

  5. Chemical Bonding & Molecular Structure

    • Ionic, covalent, metallic bonds, resonance, molecular geometry

  6. Solid State

    • Types of solids, packing, defects

  7. Liquid State

    • Vapor pressure, intermolecular forces

  8. Gaseous State

    • Ideal & real gases, Van der Waals equation

  9. Chemical Energetics & Chemical Dynamics

    • Enthalpy, entropy, free energy, reaction kinetics

  10. Physical Chemistry of Solutions

    • Concentration & colligative properties

  11. Ionic & Redox Equilibria

    • Ionic equilibrium, pH, buffers, redox balancing

  12. Basic Concepts / Units, etc

    • (Often merged with other units like molecules & arithmetic)

B. Inorganic Chemistry & General

  1. Hydrogen

    • Occurrence, properties, isotopes

  2. s-Block Elements (Alkali & Alkaline Earth Metals)

    • Properties, compounds, reactivity

  3. p-Block Elements & Their Compounds

    • Groups 13–18, oxides, halides, trends

  4. Chemistry of Metals

    • Extraction, reactivity, coordination

  5. Chemistry of Nonmetals & Their Compounds

    • Halogens, oxides, acids

  6. Coordination Compounds

    • Ligands, geometry, bonding

  7. Chemistry in Industry

    • Industrial processes, catalysts

  8. Polymers

    • Types, properties, synthesis

  9. Surface Chemistry

    • Adsorption, colloids

  10. Environmental Chemistry

    • Pollution, chemical in environment

C. Organic Chemistry

  1. Chemistry of Carbon Compounds (Fundamental)

    • Hydrocarbons, functional groups

  2. Compounds with Functional Groups

    • Alcohols, ethers, phenols, aldehydes, ketones, acids, etc.

  3. Aromatic Compounds & Special Topics

    • Benzene, aromaticity, substitution

  4. Application-oriented Chemistry

    • Real-world chemistry, biochemical, industrial examples

  5. Principles of Qualitative Analysis

    • Identification of ions, reaction schemes

These topics reflect the standard coverage.

High-Yield Areas / Important Topics:

  • Chemical Bonding & Molecular Structure

  • Periodic Trends, p-block elements

  • Redox & Ionic Equilibrium

  • Reaction Kinetics & Energetics

  • Organic functional groups (alcohols, acids, aromatic)

  • Coordination chemistry

Because Chemistry has many discrete topics, it is wise to ensure breadth and not to ignore any small unit.

Mathematics Syllabus 2026

Unlike Physics and Chemistry, the Mathematics syllabus is often more consolidated. Reports suggest 5 core chapters, but in practice, each chapter contains many sub-topics.

Here is a typical breakdown:

  1. Algebra

    • Sets, relations & functions

    • Logarithms

    • Complex numbers

    • Quadratic equations

    • Polynomial equations

    • Permutations & combinations

    • Principle of Mathematical Induction

    • Binomial theorem

    • Matrices & Determinants

  2. Trigonometry

    • Trigonometric identities, equations, inverse functions

  3. Coordinate Geometry

    • 2D coordinate geometry: lines, circles, parabola, ellipse, hyperbola

    • 3D coordinate geometry: planes, lines, direction cosines

  4. Calculus

    • Differential calculus: limits, continuity, derivative, applications

    • Integral calculus: definite, indefinite, area under curve

    • Applications of integration

    • Differential equations

  5. Vector & Miscellaneous

    • Vectors in 2D and 3D

    • Differential equations (if not covered earlier)

    • Statistics & Probability

These topics are drawn from many sources and reflect what candidates often find when referring to previous years’ syllabus. Careers360 Engineering+4Shiksha+4CollegeBatch.com+4

Important / Heavily Tested Areas:

  • Calculus (limits, differentiation, integration)

  • Coordinate geometry (especially 3D)

  • Matrices, determinants

  • Vectors

  • Probability & statistics

Given the weight mathematics carries (100 marks in total), it deserves special attention.

Weightage & Chapter-Wise Focus

Merely listing topics isn’t enough — you need insight into which areas tend to carry more weight. Based on recent trends and analysis:

  • In Mathematics, calculus (limits, differentiation/integration) and coordinate geometry often carry significant marks.

  • Vectors & 3D geometry receive frequent attention.

  • In Physics, mechanics, electromagnetism, and thermodynamics frequently dominate.

  • In Chemistry, chemical bonding, redox equilibrium, periodic trends, organic functional groups are regularly tested.

Some sources also provide approximate percentages of weightage:

  • In Mathematics: vectors (~7 %), probability (~7 %), 3D geometry (~6 %), matrices/determinants (~5 %), limits/integration (~5 %) Shiksha

  • In Chemistry: p-block elements (~6 %), redox (~5 %), ionic equilibrium / chemical equilibrium (~4 %) Shiksha

  • In Physics: wave motion, nuclear physics, solids & semiconductors (each ~5%), laws of motion (~4%) Shiksha

These percentages are indicative (from past exam analysis) and serve as guiding priorities.

How to Use the Syllabus Effectively to Plan Preparation

A syllabus is only as effective as how you use it. Here’s a step-by-step guide to making it work for you:

Download / Fix a PDF Version

Once the official WBJEE 2026 syllabus is published (on wbjeeb.nic.in), download a PDF and keep it handy. Mark this as your “master list” — only topics in this list will be your boundaries.

Break Into Time-Bound Units

Divide the syllabus (Physics, Chemistry, Mathematics) into weekly / monthly units. E.g.:

  • Weeks 1–4: Algebra + Mechanics
  • Weeks 5–8: Calculus + Thermodynamics + Electrostatics Etc.

Ensure that each block has a mix of theoretical + numerical topics so you don’t get fatigued by one type.

Prioritize High-Weight Topics

Using historical weightage, start with the topics that yield maximum marks to secure your foundation:

  • Mathematics: calculus, coordinate geometry, vectors
  • Physics: mechanics, electromagnetism
  • Chemistry: chemical bonding, redox, organic chemistry

Don’t ignore the other topics, but allocate more time to likely high-yield chapters.

Continuous Revision & Interleaving

Don’t study each subject in isolation for one long block. Interleave topics (e.g. one day Chemistry + Math + Physics) so your mind stays fresh and retention improves.

Set aside regular revision days (say, one day in a week) when you revisit older chapters to reinforce memory.

Use Past Years’ Papers & Mock Tests

Since WBJEE has had a stable syllabus and pattern, past papers are golden. Solve them under exam conditions to:

  • Understand how questions are asked
  • Find which topics appear repeatedly
  • Practice time management

Keep mock tests (weekly or biweekly) and evaluate mistakes to revisit weak topics.

Build Conceptual Understanding + Speed

  • Don’t just memorize formulas—understand derivations, conditions, and application.
  • Practice speed and accuracy, especially under negative marking pressure.
  • Use shortcut techniques, but only after you have conceptual clarity.

Prepare Formula & Error Booklets

Maintain separate sheets for formulas, common errors, tricky derivations. Regularly glance through them.

Last Months: Revision + Mock Drills

In the final 2–3 months:

  • Focus on full-length timed mocks
  • Identify weak topics and revise them
  • Do “topic-wise rapid revision” using your formula sheets
  • Simulate the exam environment

Sample Study Timeline (12-Month Plan)

Here’s a sample 12-month roadmap, which you can shrink or expand depending on your start date:

Months Focus & Strategy
Month 1 Go through the entire syllabus overview; brush up Class 11 fundamentals in all three subjects
Months 2–4 Deep dive into foundational chapters: Algebra, Kinematics, Thermodynamics, Basic Chemistry
Months 5–7 Intermediate chapters: Calculus, Electrostatics, Chemical Bonding, Organic Basics
Months 8–9 Advanced & tricky chapters: EM induction, Waves, 3D geometry, Coordination chemistry
Month 10 Start full mock tests, work on speed, revise weaker areas
Month 11 Frequent mocks, daily revision, formula recall, timed practice
Month 12 (final weeks) Topic-wise quick revision, past papers under exam timing, mental preparation, rest and health care

Tailor this plan to your current preparation level.

Common Mistakes & Pitfalls to Avoid

  • Ignoring low-weight chapters entirely — Though some chapters have lower weight, questions may still come from them.

  • Blindly memorizing without understanding — Especially in physics or chemistry, understanding gives flexibility to tackle twist questions.

  • Neglecting mock tests — Many students fail to simulate exam conditions and suffer time management issues.

  • Ignoring negative marking policy — Since wrong answers incur penalties, random guessing can hurt.

  • Not revising regularly — You forget topics unless you revisit them.

  • Overdoing one subject and neglecting others — Balance is key, especially since all three count.

Frequently Asked Questions (FAQs)

Q1. When will WBJEE 2026 syllabus be officially released?
The WBJEEB usually releases the syllabus and information bulletin several months before the exam. Until then, aspirants refer to the latest available version, which is expected to remain largely stable.

Q2. Will there be any reduction in syllabus for 2026?
As of now, there is no confirmed notification of reduction. Candidates should prepare the full syllabus unless officially notified otherwise. A

Q3. Is the WBJEE syllabus the same as JEE Main?
There is significant overlap, especially in core topics of physics, chemistry, mathematics, but the exam pattern, emphasis, negative marking, and level may differ. WBJEE may include state-board specific angles.

Q4. How many hours should I study per day?
This depends on your starting point and other commitments. Aiming for 5–8 hours per day consistently is reasonable. As the exam nears, increase intensity and also include mock tests.

Q5. Are NCERT textbooks sufficient for WBJEE?
NCERTs are an excellent base, especially for clarity. However, for deeper practice, you will need additional reference books, sample papers, and advanced problem collections.

Q6. Should I focus more on speed or accuracy?
Accuracy is primary — negative marking penalizes mistakes. But speed is also essential to finish on time. Thus, practice must balance both.