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JEE Mains Full Syllabus 2025: “Your Roadmap to JEE Mains 2025 Syllabus” – Syllabus, Strategy, and Success

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JEE Mains Full Syllabus 2025:- The JEE Mains 2025, conducted by the National Testing Agency (NTA), is one of the most prestigious and competitive exams for aspiring engineers in India. With lakhs of students vying for a spot in top engineering colleges, the exam serves as a gateway to some of the most sought-after institutions, including IITs, NITs, and other prestigious engineering colleges. As the exam date approaches, understanding the syllabus becomes a vital part of preparing effectively and strategically for the exam.

The syllabus for JEE Mains is vast, covering critical subjects like Physics, Chemistry, and Mathematics. Each subject has its own set of complex topics, and managing this vast array of concepts can be daunting. However, having a clear understanding of the syllabus is the first and most important step toward mastering the exam. It allows you to focus on the right topics, identify patterns from previous years, and structure your study plan efficiently.

JEE Mains Full Syllabus 2025

JEE Mains Full Syllabus 2025

In this article, we will walk you through the JEE Mains 2025 Full Syllabus, highlighting the most important sections and key chapters that demand your attention. We’ll also discuss any changes in the syllabus for 2025, along with valuable strategies that can help you prepare smarter. Whether you’re just beginning your preparation or refining your approach, this guide will provide you with the necessary tools and insights to stay focused and organized. Our goal is to help you make informed decisions about your preparation and set you on the path to success. Let’s explore the syllabus in detail and get ready to embark on your journey toward becoming a JEE Mains achiever.

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JEE Mains Full Syllabus 2025 Overview

Conducting Body National Testing Agency (NTA)
Department Ministry of Education, Government of India
Paper Mode of Examination – Paper 1 (B.E./B.Tech): Computer-Based Test (Online)
Paper 2 (B.Arch/B.Planning): Pen-and-Paper Test (Offline)
Duration – Paper 1: 3 hours
Paper 2: 3 hours
Number of Papers Papers (Paper 1 for B.E./B.Tech, Paper 2 for B.Arch/B.Planning)
Total Marks Paper 1: 300 Marks
Paper 2: 400 Marks
Marking Scheme -Paper 1: +4 for each correct answer, -1 for each incorrect answer
Paper 2: +4 for each correct answer, -1 for each incorrect answer (Objective section), 0 for subjective
Subjects Physics
Chemistry
Mathematics
Eligibility Criteria
  •  Must have completed 10+2 or equivalent with Physics, Chemistry, and Mathematics as core subjects.
  • Age limit and number of attempts apply.
Frequency of Exam
  • Conducted twice a year (January and April sessions). Candidates can appear for both sessions, with the best score being considered.
Application Process Online application form submission, document uploads, and payment of fee via NTA portal.
Official Website https://jeemain.nta.nic.in
This overview table provides a precise breakdown of the essential elements of JEE Mains 2025, including the conducting body, exam structure, syllabus focus, and other critical information for aspirants to understand. It should serve as a helpful reference for anyone planning their preparation for the exam.

Breaking Down the JEE Mains 2025 Full Syllabus

The JEE Mains exam is designed to test a student’s understanding of concepts in three key subjects: Physics, Chemistry, and Mathematics. Each subject holds equal weight, and a deep understanding of the syllabus will help you identify the topics you need to prioritize.

1. Physics Syllabus for JEE Mains 2025

The Physics syllabus for JEE Mains 2025 covers essential topics like Mechanics, Thermodynamics, Electromagnetism, Optics, and Modern Physics. It tests your understanding of core concepts and your ability to solve numerical problems. A strong grasp of these topics is key to scoring well in the exam.

In this article, we’ll highlight the most important areas of the syllabus, providing you with a clear roadmap for focused preparation. Let’s dive into the details and set you on the path to success!

Mechanics

1.1 Units and Dimensions
  • SI Units: Length, Mass, Time, Electric Current, Temperature, etc.
  • Dimensional Formulae of Physical Quantities
  • Dimensional Analysis: Method of Dimensional Analysis, Applications
  • Principle of Homogeneity
  • Conversion of Units
  • Dimensional Equation for Derived Quantities
1.2 Kinematics
  • Motion in One Dimension
    • Distance and Displacement: Scalars vs Vectors
    • Speed and Velocity
    • Uniform and Non-uniform Motion
    • Acceleration: Average and Instantaneous Acceleration
    • Equations of Motion: v=u+atv = u + at, s=ut+12at2s = ut + \frac{1}{2}at^2, v2=u2+2asv^2 = u^2 + 2as
  • Motion in Two Dimensions
    • Vectors and Vector Components
    • Relative Motion
    • Projectile Motion: Time of Flight, Maximum Height, Range, Trajectory
    • Uniform Circular Motion: Angular Displacement, Angular Velocity, Centripetal Acceleration
    • Centripetal Force and Tangential Velocity
  • Relative Velocity: Concept, Applications in One and Two Dimensions
1.3 Laws of Motion
  • Newton’s Laws of Motion: Applications and Examples
  • Free Body Diagrams (FBD)
  • Inertial Frames of Reference
  • Friction: Types of Friction, Laws of Friction
  • Motion on Inclined Planes
  • Dynamic Friction and Static Friction
  • Tension in Strings and Pulleys
1.4 Work, Energy, and Power
  • Work-Energy Theorem
  • Kinetic Energy and Potential Energy
  • Work Done by a Constant Force
  • Power and Efficiency
  • Conservative and Non-conservative Forces: Gravitational Force, Friction, etc.
  • Potential Energy Curve and Stability
1.5 Rotational Motion
  • Moment of Inertia: Calculation for Common Bodies (Ring, Disc, etc.)
  • Angular Momentum: Definition, and Conservation of Angular Momentum
  • Torque and its Applications
  • Rotational Kinetic Energy
  • Rotational Work, Energy, and Power
  • Rotational Dynamics: Newton’s Second Law in Rotation
  • Rolling Motion and its Conditions
1.6 Gravitation
  • Universal Law of Gravitation
  • Gravitational Field and Potential: Field due to Point Mass, Spherical Shell
  • Gravitational Potential Energy
  • Escape Velocity and Orbital Velocity
  • Kepler’s Laws of Planetary Motion
  • Satellites: Geostationary Satellites, Orbital Motion, and Time Period

Thermodynamics

2.1 Laws of Thermodynamics
  • Zeroth Law: Thermal Equilibrium and Temperature
  • First Law: Law of Energy Conservation
  • Second Law: Entropy, Spontaneous Processes
  • Third Law: Absolute Zero and Entropy at Zero Temperature
  • Heat Engines, Refrigerators, and Heat Pumps: Efficiency
2.2 Kinetic Theory of Gases
  • Ideal Gas Laws: PV=nRTPV = nRT
  • Kinetic Interpretation of Temperature
  • Molecular Collisions and Mean Free Path
  • Maxwell-Boltzmann Distribution
  • Behaviour of Real Gases: Van der Waals Equation

Electromagnetism

3.1 Electrostatics
  • Coulomb’s Law: Vector Form, Superposition Principle
  • Electric Field and Electric Potential: Gauss’s Law
  • Electric Potential Energy: Point Charge, Dipoles
  • Capacitors and Capacitance: Series and Parallel Combinations
  • Dielectrics: Polarization, Permittivity, Dielectric Constant
3.2 Current Electricity
  • Ohm’s Law: Resistance, Resistivity, Conductivity
  • Electrical Energy and Power
  • Kirchhoff’s Laws: Current Law, Voltage Law
  • Potentiometer: Measurement of Potential Difference, Comparison of EMF
  • Wheatstone Bridge: Principle, Application
3.3 Magnetic Effects of Current
  • Magnetic Field: Due to a Current-Carrying Conductor, Solenoid, and Toroid
  • Ampere’s Law and Applications
  • Biot-Savart Law: Force on Moving Charges, Force on Current-Carrying Conductor
  • Magnetic Moment of a Current Loop
  • Earth’s Magnetic Field and its Properties
3.4 Electromagnetic Induction
  • Faraday’s Law of Induction: Electromotive Force (EMF)
  • Lenz’s Law and its Applications
  • Self and Mutual Induction
  • Eddy Currents
3.5 Alternating Current
  • AC Circuit: Voltage, Current, Phase Difference
  • LCR Circuit: Impedance, Resonance
  • Power in AC Circuits: Average Power, Power Factor

Optics

4.1 Reflection and Refraction
  • Laws of Reflection and Refraction
  • Snell’s Law
  • Total Internal Reflection and Critical Angle
  • Mirrors and Lenses: Types, Image Formation, Magnification
  • Combination of Lenses and Mirrors
4.2 Wave Optics
  • Interference of Light: Young’s Double Slit Experiment, Coherent Sources
  • Diffraction of Light: Single Slit, Double Slit, and Diffraction Grating
  • Polarization: Polarization by Reflection, Brewster’s Law

Modern Physics

5.1 Atomic Structure
  • Bohr’s Model of Atom
  • Quantum Numbers: Principal, Azimuthal, Magnetic, Spin Quantum Numbers
  • Atomic Spectra: Hydrogen Spectrum, Balmer Series
5.2 Nuclear Physics
  • Radioactivity: Types, Decay Law, Half-Life
  • Nuclear Reactions: Fission and Fusion, Nuclear Energy
  • Nuclear Model: Rutherford’s Model, Nuclear Forces
5.3 Dual Nature of Matter
  • de Broglie’s Hypothesis: Wave-Particle Duality
  • Photoelectric Effect: Einstein’s Equation

Preparation Tips for Physics in JEE Mains 2025

  1. Master the Basics: Focus on understanding fundamental concepts like Newton’s Laws, Thermodynamics, and Electromagnetism. Don’t rely on memorization.
  2. Focus on Key Topics: Prioritize topics like Mechanics, Electrostatics, Magnetism, Optics, and Modern Physics as they carry significant weight.
  3. Solve Problems Regularly: Practice problems consistently to develop problem-solving skills. Start with simple problems and gradually tackle tougher ones.
  4. Use Diagrams and Visual Aids: For topics like Mechanics and Optics, drawing diagrams can help in better understanding.
  5. Take Mock Tests: Simulate exam conditions with regular mock tests to improve time management and identify weak areas.
  6. Revise Frequently: Regular revision of formulas, concepts, and problem-solving techniques is key to retaining information.
  7. Stay Positive and Consistent: Keep a positive mindset, manage stress, and stay consistent with your preparation. Focus on understanding concepts, and speed will follow with practice.

2. Chemistry Syllabus for JEE Mains 2025

Chemistry in JEE Mains consists of three major parts: Physical Chemistry, Organic Chemistry, and Inorganic Chemistry. Each part tests different aspects of your understanding, from conceptual clarity to the application of theories.

Class 11 Topics of Chemistry

1. Some Basic Concepts of Chemistry

  • Laws of Chemical Combination: Law of conservation of mass, law of definite proportions, law of multiple proportions
  • Atomic and Molecular Mass: Molar mass, Avogadro’s number
  • Mole Concept: Definition of mole, relation between moles and mass, concept of molar volume

2. Structure of Atom

  • Atomic Models: Dalton’s atomic theory, Bohr’s atomic model, de Broglie concept
  • Quantum Numbers: Principal, angular momentum, magnetic, and spin quantum numbers
  • Electron Configuration: Aufbau principle, Pauli exclusion principle, Hund’s rule

3. Classification of Elements and Periodicity in Properties

  • Modern Periodic Table: Groups and periods, trends in atomic and ionic size, ionization enthalpy, electron affinity, electronegativity
  • Periodic Trends: Variation of properties across periods and groups

4. Chemical Bonding and Molecular Structure

  • Ionic Bond: Electrovalent bonding, properties of ionic compounds
  • Covalent Bond: Lewis structures, hybridization, VSEPR theory, dipole moment
  • Other Bonding Theories: Molecular orbital theory, bonding in diatomic molecules

5. States of Matter: Gases and Liquids

  • Gas Laws: Boyle’s law, Charles’ law, ideal gas equation
  • Kinetic Molecular Theory of Gases: Ideal gas behavior, deviations from ideality
  • Liquids: Properties of liquids, vapour pressure, surface tension, viscosity

6. Thermodynamics

  • Laws of Thermodynamics: Zeroth, first, second, and third laws of thermodynamics
  • Internal Energy, Enthalpy: Work, heat, heat capacities, enthalpy of reaction
  • Entropy and Gibbs Free Energy: Concept of spontaneity, change in free energy

7. Equilibrium

  • Chemical Equilibrium: Le Chatelier’s Principle, equilibrium constant, factors affecting equilibrium
  • Ionic Equilibrium: Strong and weak electrolytes, acid-base equilibrium, buffer solutions, pH

8. Redox Reactions

  • Oxidation-Reduction Concepts: Oxidizing and reducing agents, oxidation states
  • Electrochemical Cells: Galvanic cells, Nernst equation, cell potential, electrolytic cells

9. Hydrogen

  • Hydrogen as an Element: Isotopes of hydrogen, preparation, properties, and uses
  • Hydrogen Compounds: Hydrides, water, hydrogen peroxide

10. s-Block Elements (Alkali and Alkaline Earth Metals)

  • Alkali Metals: Group 1 elements, properties, and compounds
  • Alkaline Earth Metals: Group 2 elements, properties, and compounds

11. Some p-Block Elements

  • Group 13 to 18 Elements: Trends in properties, compounds of group 14 (carbon family), group 15 (nitrogen family), group 16 (oxygen family), and group 17 (halogens)
  • Noble Gases: Properties and applications

12. Organic Chemistry – Some Basic Principles and Techniques

  • Basic Concepts: Organic compounds, functional groups, IUPAC nomenclature
  • Methods of Purification: Separation techniques like distillation, crystallization, chromatography
  • Isomerism: Structural and stereoisomerism

13. Hydrocarbons

  • Types of Hydrocarbons: Alkanes, alkenes, alkynes, aromatic compounds
  • Reactions of Hydrocarbons: Combustion, substitution, addition, and polymerization reactions

14. Environmental Chemistry

  • Environmental Issues: Air and water pollution, ozone depletion, greenhouse effect, acid rain

Class 12 Topics of Chemistry

1. Solid State

  • Crystalline Solids: Lattice structure, unit cell, packing efficiency, types of crystals
  • Defects in Solids: Point defects, dislocations
  • Electrical and Magnetic Properties: Electrical conductivity, semiconductors, ferromagnetism

2. Solutions

  • Types of Solutions: Solvent-solute interactions, concentration units (molarity, molality, normality)
  • Colligative Properties: Boiling point elevation, freezing point depression, osmotic pressure
  • Raoult’s Law: Application to Ideal Solutions

3. Electrochemistry

  • Electrochemical Cells: Galvanic, electrolytic cells, cell potential, Nernst equation
  • Electrolysis: Faraday’s laws of electrolysis, applications of electrolysis
  • Corrosion: Causes and prevention of corrosion

4. Chemical Kinetics

  • Rate of Reaction: Factors affecting the rate of reaction, rate law, order and molecularity
  • Integrated Rate Equations: First and second-order reactions, half-life
  • Arrhenius Equation: Temperature dependence of rate

5. Surface Chemistry

  • Adsorption: Adsorption isotherms, Freundlich and Langmuir adsorption
  • Catalysis: Homogeneous and heterogeneous catalysis, enzyme catalysis

6. General Principles and Processes of Isolation of Elements

  • Methods of Extraction: Concentration, reduction, refining, metallurgy
  • Alloys and their Applications: Composition and Properties

7. p-Block Elements

  • Group 15 to 18 Elements: Preparation, properties, and uses of compounds like oxides, halides, and hydrides of elements like nitrogen, phosphorus, oxygen, sulfur, halogens, and noble gases
  • Biological Importance: Role of elements like nitrogen in life processes

8. d- and f-Block Elements

  • Transition Metals: Electronic configuration, oxidation states, color, magnetic properties, and complexes
  • Lanthanides and Actinides: Chemistry of f-block elements, occurrence, properties

9. Coordination Compounds

  • Ligands and Coordination Numbers: Types of ligands, structure of coordination compounds
  • Bonding in Coordination Compounds: Werner’s theory, Valence Bond Theory, Crystal Field Theory
  • Applications: Role in biological systems, industrial applications

10. Haloalkanes and Haloarenes

  • Preparation and Reactions: Substitution reactions, reactions with nucleophiles
  • Uses: Role of halogen compounds in industries, medicinal applications

11. Alcohols, Phenols, and Ethers

  • Preparation and Reactions: Hydroxyl group, reactions of alcohols, phenols, and ethers
  • Uses: Industrial uses of alcohols and phenols, properties of ethers

12. Aldehydes, Ketones, and Carboxylic Acids

  • Functional Group Reactions: Nucleophilic addition, oxidation, reduction, decarboxylation
  • Uses: In industry and biochemistry

13. Organic Compounds Containing Nitrogen

  • Amines, Cyanides, Isocyanides: Preparation, reactions, and uses
  • Benzene Derivatives: Nitro compounds, diazonium salts

14. Biomolecules

  • Carbohydrates, Proteins, Enzymes, Nucleic Acids: Structure, function, and importance
  • Vitamins and Hormones: Biological significance and deficiency diseases
15. Polymers
  • Types of Polymers: Addition and condensation polymers
  • Applications of Polymers: In textiles, packaging, and industry
16. Chemistry in Everyday Life
  • Medicinal Chemistry: Drugs, their sources, and applications
  • Chemistry of Foods, Detergents: Additives, preservatives, and their impact on health

Preparation Tips for Chemistry in JEE Mains 2025

  1. Understand Basic Concepts: Focus on understanding fundamental topics like the mole concept, chemical bonding, and reactions rather than memorization.
  2. Regular Practice: Solve plenty of problems and practice with JEE Mains mock tests and previous year’s papers to build your problem-solving speed.
  3. Focus on Important Topics: Topics like Organic Chemistry, Coordination Compounds, and Electrochemistry are vital for scoring high marks.
  4. Revise Regularly: Revisit formulas, reactions, and concepts consistently to reinforce memory.
  5. Use NCERT Textbooks: The NCERT books are crucial for both theory and practice questions for Chemistry in JEE Mains.

JEE Mains 2025 Mathematics Syllabus

Class 11 Topics of Mathematics

1. Algebra

  • Sets, Relations, and Functions:
    • Set operations, relations, types of relations
    • Functions: domain, range, types (one-to-one, onto, bijective)
    • Composition of functions, inverse of a function
  • Complex Numbers and Quadratic Equations:
    • Complex numbers, polar form, Argand plane
    • Quadratic equations, nature of roots, and their relationships
    • Relations between roots and coefficients
  • Sequences and Series:
    • Arithmetic progression (AP), geometric progression (GP)
    • Sum of AP and GP, properties of series
    • Infinite GP, harmonic progression, special series (e.g., sum of squares, sum of cubes)
  • Permutations and Combinations:
    • Fundamental principles of counting
    • Permutations and combinations, circular permutations
    • Binomial theorem and its applications
  • Binomial Theorem:
    • Statement and proof of the binomial theorem
    • General and middle terms in binomial expansion
    • Application of the binomial expansion
  • Mathematical Induction:
    • Principle of mathematical induction
    • Applications of induction in proving statements
  • Matrices and Determinants:
    • Types of matrices, matrix operations (addition, multiplication)
    • Determinants, properties, minors and co-factors, inverse of a matrix
    • Application of matrices and determinants in solving linear equations

2. Coordinate Geometry

  • Straight Lines:
    • Equation of a line in different forms (slope-intercept, point-slope, general form)
    • The angle between two lines, condition for parallelism and perpendicularity
    • Distance of a point from a line, equation of a family of lines
  • Conic Sections:
    • Circle, ellipse, parabola, and hyperbola
    • General equation of a conic, properties, and standard forms
    • Tangents and normals to conics, focal distance, and eccentricity
  • Three-Dimensional Geometry:
    • Coordinates in 3D, distance formula, section formula
    • Direction ratios and direction cosines, the  angle between two lines
    • Equation of a plane, equation of a straight line in space, angle between two planes

3. Calculus

  • Limits and Continuity:
    • Concept of limits, limit laws, indeterminate forms
    • Continuity and differentiability, types of discontinuity
  • Differentiation:
    • Differentiation of basic functions, chain rule, product rule, quotient rule
    • Higher-order derivatives, application of derivatives to find tangent and normal, maxima and minima
  • Application of Derivatives:
    • Tangent and normal to curves
    • Rate of change, motion along a straight line
  • Integration:
    • Indefinite integration, integration by substitution, by parts, and by partial fractions
    • Definite integrals and properties, Fundamental Theorem of Calculus
  • The area under Curves:
    • Calculation of area under simple curves using definite integrals

4. Trigonometry

  • Trigonometric Functions:
    • Basic identities, addition and subtraction formulas
    • Multiple and sub-multiple angles, double angle, and half angle formulas
    • Trigonometric equations and their solutions
  • Inverse Trigonometric Functions:
    • Definition and properties of inverse trigonometric functions
    • Graphs of inverse trigonometric functions
  • Applications of Trigonometry:
    • Heights and distances, solving problems using trigonometric ratios

5. Probability and Statistics

  • Probability:
    • Sample space, events, and probability of an event
    • Conditional probability, Bayes’ theorem, random variables
    • Binomial distribution, probability distributions
  • Statistics:
    • Mean, median, mode, variance, and standard deviation
    • Measures of dispersion and their applications

6. Vector Algebra

  • Vectors:
    • Types of vectors (zero, unit, position, etc.)
    • Operations on vectors: addition, subtraction, scalar multiplication
    • Dot product and cross product, projection of a vector
  • Applications of Vectors:
    • Geometrical applications, vector equations of lines and planes in space

Class 12 Topics of Mathematics

1. Algebra

  • Relations and Functions:
    • Inverse of a function, types of functions
    • Composite functions and binary operations
  • Sequences and Series:
    • Arithmetic progression (AP), geometric progression (GP)
    • The sum of AP and GP, properties of series
  • Mathematical Induction:
    • Principle and applications of mathematical induction
  • Binomial Theorem and its Generalization:
    • Expansion of binomial expressions, application to series
  • Complex Numbers and Quadratic Equations:
    • Real and imaginary parts of complex numbers, the argument of complex numbers
    • Quadratic equations, relationships between roots and coefficients

2. Calculus

  • Continuity and Differentiability:
    • Limits and their properties, continuity of functions
    • Differentiation rules, application to maxima and minima
  • Differentiation:
    • Differentiation of logarithmic and exponential functions
    • Implicit differentiation, higher-order derivatives
  • Integration:
    • Integration of standard functions
    • Methods of integration: substitution, by parts, partial fractions
    • Definite integrals and their applications to find areas
  • Application of Integrals:
    • Finding areas under curves, area between two curves, area of regions bounded by curves
  • Differential Equations:
    • First-order differential equations, general and particular solutions
    • Separable and linear differential equations

3. Coordinate Geometry

  • Conic Sections:
    • Parabola, ellipse, hyperbola, and their equations in different forms
    • Tangents and normals to conics, equation of directrix and focus
  • Three-Dimensional Geometry:
    • Direction cosines, angle between lines and planes
    • Equation of a plane and line in space, distance between point and plane

4. Trigonometry

  • Trigonometric Identities:
    • Double angle and half angle identities, sum-to-product and product-to-sum formulas
    • Trigonometric equations
  • Inverse Trigonometric Functions:
    • Definitions, properties, and graphs
  • Applications of Trigonometry:
    • Heights and distances in various geometrical figures

5. Vectors

  • Addition and Subtraction of Vectors:
    • Scalar and vector products, applications of dot and cross products
    • Projection of vectors on another vector, angle between two vectors

6. Probability

  • Probability Distributions:
    • Binomial and Poisson distributions
    • Probability and combinatorics
  • Statistics:
    • Measures of central tendency (mean, median, mode) and measures of dispersion (variance, standard deviation)

Preparation Tips for Mathematics in JEE Mains 2025

  1. Strengthen Core Concepts: Focus on building a solid understanding of fundamental concepts such as limits, derivatives, matrices, and conic sections.
  2. Practice Regularly: Mathematics requires consistent practice. Solve problems daily and take mock tests to improve problem-solving speed.
  3. Master Problem-Solving Techniques: Develop strategies for solving complex problems, and be comfortable with multiple methods of solution.
  4. Focus on Key Topics: Prioritize areas with high weightage in the exam such as Calculus, Algebra, and Coordinate Geometry.
  5. Revision: Regularly revise important formulas, identities, and theorems to keep concepts fresh and improve recall speed during the exam.

Topics Removed from JEE Mains 2025 Syllabus

As per the updates from the National Testing Agency (NTA), there are no major removals from the JEE Mains 2025 syllabus. However, some topics were removed in previous years, which might still be relevant for students to know. Here is a summary of the key topics that were removed from the JEE Mains syllabus in the recent past:

Mathematics:

  • Mathematical Induction: The concept of mathematical induction and related problems has been removed from the syllabus.
  • Mathematical Reasoning: The topic dealing with logical reasoning and the methods of proof has been excluded.

Physics:

  • Communication Devices: This unit, which covered the working of devices like radios, television, and other communication systems, has been removed from the syllabus.

Chemistry:

  • Surface Chemistry: The chapter focusing on the properties and applications of surfaces in relation to catalysts, adsorption, etc., has been excluded.
  • States of Matter: This chapter, covering topics like gas laws and the kinetic theory of gases, has been removed.
  • General Principles and Processes of Isolation of Metals: Topics related to metallurgy and the processes of extracting metals from ores have been omitted.
  • s-Block Elements: Topics related to the chemistry of alkali and alkaline earth metals (such as their properties, compounds, and reactions) are no longer included.
  • Hydrogen: The chapter discussing hydrogen’s properties, its compounds, and its importance in various chemical processes has been removed.
  • Environmental Chemistry: The study of the effects of chemical processes on the environment is no longer part of the syllabus.
  • Alcohols, Phenols, and Ethers: These organic compounds, their properties, reactions, and applications have been excluded from the syllabus.
  • Polymers: The chapter that covers the study of polymers, including their classification, synthesis, and applications, has been removed.

JEE Mains Full Syllabus 2025

Key Takeaways for JEE Mains 2025 Aspirants:

Although no topics have been removed from the JEE Mains 2025 syllabus, students should be aware that previous deletions continue to shape the current curriculum. Focusing on the remaining core topics and keeping updated with any further announcements from the NTA will help streamline your preparation.

Stay tuned for further updates and ensure that you are well-prepared by focusing on the relevant and core topics!

JEE Mains 2025 Syllabus PDF Download

Candidates can download the official JEE Mains 2025 syllabus for Paper 1 (BE/BTech), Paper 2A (BArch), and Paper 2B (BPlan) from the links below. These syllabi are provided by the National Testing Agency (NTA) and contain all the important topics and guidelines for each paper.

Paper Type Syllabus PDF Download
Paper 1 (BE/BTech) Click Here
Paper 2A (BArch) Click Here
Paper 2B (BPlan) Click Here

JEE Mains 2025 Exam: Weightage Per Subject

The weightage of each subject in the JEE Mains 2025 exam is an important factor for candidates while preparing for the exam. Although the exact weightage may vary slightly every year, the general distribution of marks across Physics, Chemistry, and Mathematics is as follows:

1. Physics: 33% of Total Marks

Physics in JEE Mains covers topics from both Class 11 and Class 12. The weightage is generally distributed as:

  • Mechanics (Laws of motion, Work, Energy, Power, Rotational Motion) – 25-30%
  • Electrostatics & Magnetism (Electricity, Magnetism, Electromagnetic Induction) – 20-25%
  • Modern Physics (Atomic structure, Nuclear Physics, Dual Nature) – 15-20%
  • Thermodynamics & Kinetic Theory (Heat, Laws of Thermodynamics) – 10-15%
  • Waves & Optics (Wave optics, Reflection, Refraction) – 10-15%
  • Fluid Mechanics and Other Topics5-10%

2. Chemistry: 33% of Total Marks

Chemistry is divided into Physical Chemistry, Organic Chemistry, and Inorganic Chemistry. Here’s the breakdown of each:

  • Physical Chemistry (Mole concept, Chemical Kinetics, Thermodynamics) – 30-35%
  • Organic Chemistry (Hydrocarbons, Functional Groups, Organic Reactions) – 25-30%
  • Inorganic Chemistry (Periodic Table, Coordination Compounds, p-Block Elements) – 25-30%
  • Environmental Chemistry and Biomolecules5-10%

3. Mathematics: 34% of Total Marks

Mathematics also covers topics from both Class 11 and Class 12. The distribution is as follows:

  • Calculus (Limits, Differentiation, Integration, Applications) – 30-35%
  • Algebra (Quadratic equations, Progressions, Matrices, Permutations) – 20-25%
  • Coordinate Geometry (Straight Lines, Circles, Parabolas) – 15-20%
  • Vectors and 3D Geometry (Vector algebra, Planes, Lines) – 10-15%
  • Trigonometry (Identities, Equations, Heights and Distances) – 10-15%
  • Probability (Combinations, Permutations, Probability Theory) – 5-10%

Important Links

Official updates, notification, exam details JEE Mains Website
Application form, corrections, admit card JEE Manis Application Portal
Join Us Telegram || WhatsApp
NEET 2025 Full Syllabus Click Here
Bihar Board 12th Exam Center List 2025 Click Here

Conclusion: Your Path to JEE Mains 2025 Success

Mastering the JEE Mains 2025 syllabus is key to achieving success. By focusing on high-weightage topics in Physics, Chemistry, and Mathematics, staying consistent with practice, and regularly revising concepts, you can streamline your preparation effectively.

Stay disciplined, practice mock tests, and prioritize your strengths. With smart planning and dedication, you’ll be well on your way to acing the exam. Best of luck with your preparation – success is within your reach.

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