JEE Advanced Syllabus

Physics

Chemistry

1. General Topics

• Atomic theory, mole concept, stoichiometry, redox reactions.

2. States of Matter

• Ideal gas laws, kinetic theory, van der Waals equation, surface tension, viscosity.

3. Atomic Structure

• Bohr model, wave-particle duality, quantum mechanical model of hydrogen, orbitals.

4. Chemical Bonding

• Covalent bonding, hybridization, VSEPR theory, molecular orbital theory.

5. Thermodynamics

• First and second laws, enthalpy, entropy, Gibbs free energy.

6. Chemical Equilibrium

• Law of mass action, equilibrium constants, Le Chatelier’s principle.

7. Electrochemistry

• Electrochemical cells, Nernst equation, galvanic cells, electrolysis.

8. Chemical Kinetics

• Rate laws, reaction order, Arrhenius equation, catalysis.

9. Organic Chemistry

• Hybridization, bond types, IUPAC nomenclature, isomerism.
• Reactions of alkanes, alkenes, alkynes, benzene, alcohols, phenols, and amines.
• Important reactions: Aldol condensation, Cannizzaro reaction, Grignard reactions.

10. Biomolecules

• Carbohydrates, proteins, nucleic acids, enzymes.

11. Solid State

• Classification of solids: crystalline and amorphous.
• Crystal lattices, packing in crystals (fcc, bcc, hcp), defects in crystals.
• Ionic solids, radius ratio, and point defects.

12. Solutions

• Henry’s Law: Gas solubility in liquids.
• Raoult’s Law: Ideal and non-ideal solutions.
• Colligative properties: Vapor pressure lowering, boiling point elevation, freezing point depression, and osmotic pressure.

13. Surface Chemistry

• Adsorption: Physical and chemical adsorption, adsorption isotherms (Freundlich).
• Colloids: Types, preparation, properties.
• Emulsions and micelles.

14. Classification of Elements and Periodicity

• Modern periodic law, periodic table trends: Atomic and ionic radii, ionization energy, electron affinity, electronegativity, and chemical reactivity.

15. Hydrogen

• Position in the periodic table, properties, uses.
• Preparation of hydrogen and its isotopes, hydrides (ionic, covalent, interstitial).
• Water, hydrogen peroxide, hydrogen as a fuel.

16. s-Block Elements

• Properties and reactivity of alkali and alkaline earth metals.
• Anomalous behavior of lithium and beryllium.
• Important compounds of sodium and calcium (NaCl, NaOH, CaCO₃).

17. p-Block Elements

• Properties and reactivity of groups 13-18.
• Important compounds: Borax, orthoboric acid, diborane, boron trifluoride (Group 13); Carbon dioxide, silicon dioxide (Group 14); Nitrogen compounds, phosphorous compounds (Group 15); Sulfuric acid, sulfur dioxide (Group 16); Chlorine, hydrochloric acid (Group 17); Noble gases, xenon compounds (Group 18).

18. d-Block Elements

• Oxidation states, complex formation, color and magnetic properties, catalytic behavior, preparation and reactions of oxoanions of chromium and manganese.

19. f-Block Elements

• Lanthanoids and actinoids: Properties, oxidation states, lanthanoid contraction.

20. Coordination Compounds

• Nomenclature, isomerism, VBT and CFT theories, hybridization, and geometry.
• Magnetic properties, color of coordination compounds, applications.

21. Metallurgy

• Extraction of metals (iron, copper, zinc, aluminum).
• Thermodynamic and electrochemical principles of metallurgy.
• Refining processes, cyanide process (silver, gold).

22. Environmental Chemistry

• Pollution: Types (air, water, soil), causes, and control measures.
• Green chemistry and its applications.

23. Organic Chemistry

• Alkanes: Preparation, reactions (combustion, halogenation).
• Alkenes and Alkynes: Preparation by elimination reactions, electrophilic addition, oxidation.
• Benzene: Structure, electrophilic substitution (nitration, halogenation, sulfonation).
• Phenols: Preparation, electrophilic substitution, oxidation, reduction.
• Amines: Preparation from nitro compounds, nucleophilic substitution, Hoffmann bromamide degradation, diazonium salts.
• Carboxylic Acids: Preparation, reactions (esterification, halogenation).

24. Biomolecules

• Carbohydrates: Monosaccharides and disaccharides.
• Proteins: Amino acids, peptide linkage, structure of proteins.
• Nucleic Acids: DNA and RNA, structure, and function.

25. Polymers

• Types of polymerization: Addition, condensation.
• Important polymers: Nylon, Teflon, Bakelite, PVC, natural rubber.
• Biodegradable polymers and their applications.

Mathematics

1. Algebra

• Complex numbers, quadratic equations, arithmetic and geometric progressions.
• Permutations and combinations, binomial theorem, logarithms.

2. Matrices

• Matrix operations, determinants, inverse of matrices, solving linear equations.

3. Probability

• Probability rules, Bayes theorem, random variables, mean and variance.

4. Trigonometry

• Trigonometric functions, identities, inverse functions, equations.

5. Analytical Geometry

• Equations of straight lines, circles, parabolas, ellipses, hyperbolas.
• Distance formula, section formula, tangent and normal to curves.

6. Calculus

• Differential Calculus: Limits, continuity, derivatives, mean value theorem, maxima and minima.
• Integral Calculus: Definite and indefinite integrals, applications, differential equations.

7. Vectors

• Vector addition, scalar and vector products, applications in geometry.

8. Differential Calculus

• Limits: Limit of a function at a point, L’Hopital’s Rule.
• Continuity: Continuity of composite functions, intermediate value theorem.
• Derivatives: Basic rules, chain rule, higher-order derivatives, geometric interpretations.
• Applications of Derivatives: Tangents, normals, monotonicity, maxima, minima.

9. Integral Calculus

• Integration: Indefinite integrals, techniques (substitution, partial fractions).
• Definite Integrals: Properties, applications in areas under curves.
• Differential Equations: First-order differential equations, separation of variables.

10. Vectors and 3D Geometry

• Vectors: Addition, scalar multiplication, dot product, cross product.
• 3D Geometry: Line equations, plane equations, distance between lines and planes, angles between lines and planes.

11. Probability and Statistics

• Probability:
  • Random experiments, sample space, types of events (simple, compound, independent).
  • Addition and multiplication rules, conditional probability, Bayes’ theorem.
  • Use of permutations and combinations in probability.
• Statistics:
  • Measures of central tendency: Mean, median, mode.
  • Measures of dispersion: Range, mean deviation, variance, standard deviation.
  • Analysis of grouped and ungrouped data, frequency distributions, and their interpretation.

12. Matrices and Determinants

• Matrices:
  • Definition, types of matrices (square, diagonal, symmetric, skew-symmetric).
  • Matrix operations: Addition, scalar multiplication, multiplication of matrices.
  • Transpose of a matrix, properties of matrices.
• Determinants:
  • Determinant of a matrix, properties of determinants.
  • Adjoint and inverse of a square matrix (order up to 3×3).
  • Solving systems of linear equations using matrices and determinants (Cramer’s rule).

13. Trigonometry

• Trigonometric Functions:
  • Periodicity, graphs of sine, cosine, tangent functions.
  • Trigonometric identities, sum and difference of angles, multiple angle identities.
• Inverse Trigonometric Functions:
  • Principal values, properties of inverse trigonometric functions.
• Trigonometric Equations:
  • General solutions of trigonometric equations.
  • Application of trigonometric identities and functions to solve problems.

14. Analytical Geometry

• 2D Geometry:
  • Cartesian coordinates, distance formula, section formula.
  • Straight Lines: Equation of a line in various forms, angle between two lines, distance from a point to a line.
  • Circles: Equation of a circle, tangents, normals, chord properties.
  • Conic Sections: Parabola, ellipse, hyperbola – standard equations, foci, directrices, eccentricity.
• 3D Geometry:
  • Distance between two points, direction cosines and direction ratios.
  • Equation of a line in space, skew lines, shortest distance between two lines.
  • Equation of a plane, angle between two planes, angle between a line and a plane.

General Information for JEE Advanced

Exam Structure

• Type of Questions: Multiple choice questions (MCQs), numerical value questions, and matching type questions.
• Duration: 3 hours per paper; there are two papers.
• Subjects: Physics, Chemistry, and Mathematics.
• Marking Scheme: The exam features both positive and negative marking. Some questions may have partial marking.

Recommended Preparation Strategy

• Practice Previous Years’ Papers: Solving past papers is critical for understanding the format and timing of the exam.
• Focus on Core Concepts: JEE Advanced tests conceptual clarity, so focus on thoroughly understanding fundamental principles in each subject.
• Time Management: Develop a strategy to allocate sufficient time for each subject during preparation and the actual exam.
• Mock Tests: Regularly take full-length mock tests to simulate exam conditions and identify weak areas. ( Student Login)

Useful Resources

• NCERT Textbooks: Strongly recommended as they cover the basics and many important topics.
• Reference Books: Some popular books for JEE Advanced preparation include:
  • Physics: H.C. Verma’s Concepts of Physics, D.C. Pandey’s Understanding Physics series.
  • Chemistry: O.P. Tandon’s Physical Chemistry, J.D. Lee’s Concise Inorganic Chemistry, and Organic Chemistry by Morrison and Boyd.
  • Mathematics: R.D. Sharma, I.A. Maron’s Calculus, and S.L. Loney’s books on trigonometry and coordinate geometry.