Mains Syllabus of kvpy Exam 2024

KVPY 2024: A Comprehensive Guide to the Mains Syllabus

Stream SA (Class 11):

Physics

  • Mechanics:

    • Kinematics: Motion in one, two and three dimensions, projectiles, uniform circular motion, relative motion, work, energy and power, conservation of energy, rotational motion, angular momentum, moment of inertia, torque, angular velocity and acceleration.
    • Gravitation: Kepler’s laws, Newton’s law of gravitation, gravitational potential energy, escape velocity, orbital velocity, geostationary satellites.
    • Oscillations: Simple harmonic motion, damped oscillations, forced oscillations, resonance.
    • Waves: Transverse and longitudinal waves, superposition of waves, interference, diffraction, Doppler effect.

  • Heat and Thermodynamics:

    • Thermal properties of matter: Temperature, heat, specific heat capacity, latent heat, thermal expansion, calorimetry.
    • Thermodynamics: First law of thermodynamics, internal energy, enthalpy, heat capacity, second law of thermodynamics, entropy, Carnot engine.
    • Kinetic theory of gases: Ideal gas equation, kinetic energy of molecules, mean free path, degrees of freedom, equipartition of energy.

  • Electricity and Magnetism:

    • Electrostatics: Coulomb’s law, electric field, electric potential, electric flux, Gauss’s law, capacitors, capacitance, energy stored in a capacitor.
    • Current electricity: Electric current, resistance, Ohm’s law, resistivity, Kirchhoff’s laws, Wheatstone bridge, potentiometer, heating effect of current, Joule’s law, chemical effect of current, Faraday’s laws of electrolysis.
    • Magnetism: Magnetic field, magnetic force on a moving charge, magnetic field due to a current carrying conductor, Biot-Savart law, Ampere’s law, magnetic moment, torque on a magnetic dipole, magnetic flux, Faraday’s law of electromagnetic induction, Lenz’s law, self and mutual inductance.

  • Modern Physics:

    • Photoelectric effect, Compton effect, de Broglie hypothesis, Bohr’s model of hydrogen atom, energy levels, spectral series, X-rays, radioactivity, alpha, beta and gamma decay, nuclear fission and fusion.

Chemistry

  • Basic Concepts of Chemistry:

    • Atomic structure: Bohr’s model, quantum numbers, electronic configuration, periodic trends, chemical bonding, ionic, covalent and metallic bonding, hybridization, VSEPR theory.
    • States of matter: Gases, liquids and solids, intermolecular forces, properties of solids, liquids and gases, solutions, colligative properties.
    • Chemical reactions and stoichiometry: Chemical equations, balancing chemical equations, stoichiometric calculations, limiting reagent, percentage yield, concentration of solutions, molarity, molality, normality.
    • Thermodynamics: Enthalpy, entropy, Gibbs free energy, spontaneity of reactions, Hess’s law, bond dissociation energy.
    • Chemical kinetics: Rate of reaction, factors affecting rate of reaction, order and molecularity of reactions, rate constant, integrated rate laws, activation energy, collision theory.

  • Inorganic Chemistry:

    • Periodic classification of elements: Periodic table, trends in periodic properties, s, p, d and f block elements, general characteristics of groups and periods.
    • Chemical bonding and molecular structure: Ionic, covalent and metallic bonding, hybridization, VSEPR theory, molecular orbital theory, dipole moment, hydrogen bonding.
    • Coordination compounds: Nomenclature, isomerism, bonding, stability constants, applications of coordination compounds.
    • Metallurgy: Extraction of metals, refining of metals, properties and uses of metals.

  • Organic Chemistry:

    • Nomenclature, IUPAC nomenclature, functional groups, isomerism, structural, geometrical and optical isomerism.
    • Alkanes, alkenes, alkynes, aromatic hydrocarbons, reactions of hydrocarbons, addition, substitution, elimination reactions.
    • Alcohols, ethers, aldehydes, ketones, carboxylic acids, amines, amides, their preparation, properties and reactions.
    • Polymers, biomolecules, carbohydrates, proteins, lipids, nucleic acids.

Mathematics

  • Algebra:

    • Sets, relations and functions, mappings, types of functions, inverse functions, composite functions, binary operations, groups, rings, fields.
    • Matrices and determinants: Types of matrices, operations on matrices, determinants, properties of determinants, inverse of a matrix, rank of a matrix, solution of linear equations using matrices.
    • Complex numbers: Algebra of complex numbers, modulus and argument of a complex number, De Moivre’s theorem, roots of unity.
    • Quadratic equations: Solution of quadratic equations, nature of roots, relations between roots and coefficients, quadratic inequalities.
    • Permutations and combinations: Factorial, permutations, combinations, binomial theorem, properties of binomial coefficients.
    • Sequences and series: Arithmetic progression, geometric progression, harmonic progression, arithmetic-geometric progression, sum of finite and infinite series.

  • Trigonometry:

    • Trigonometric ratios, trigonometric identities, trigonometric equations, inverse trigonometric functions, properties of triangles, solution of triangles, heights and distances.

  • Coordinate Geometry:

    • Cartesian coordinates, distance formula, section formula, slope of a line, equation of a line, angle between two lines, perpendicular distance from a point to a line, circle, parabola, ellipse, hyperbola, their standard equations, properties and applications.

  • Calculus:

    • Limits, continuity, differentiability, derivatives of functions, applications of derivatives, maxima and minima, rate of change, tangents and normals, integration, definite and indefinite integrals, applications of integration, area under a curve, volume of solids of revolution.

  • Vectors:

    • Vectors in two and three dimensions, addition and subtraction of vectors, scalar and vector products, scalar triple product, vector triple product, applications of vectors in geometry and physics.

  • Statistics and Probability:

    • Measures of central tendency, measures of dispersion, probability, conditional probability, Bayes’ theorem, random variables, probability distributions, binomial distribution, Poisson distribution, normal distribution.

Stream SB (Class 12):

Physics

  • Electrostatics:
    • Electric charges, Coulomb’s law, electric field, electric potential, electric flux, Gauss’s law, capacitors, capacitance, energy stored in a capacitor, dielectrics, polarization.
  • Current Electricity:
    • Electric current, resistance, Ohm’s law, resistivity, Kirchhoff’s laws, Wheatstone bridge, potentiometer, heating effect of current, Joule’s law, chemical effect of current, Faraday’s laws of electrolysis, drift velocity, mobility, conductivity.
  • Magnetic Effects of Current and Magnetism:
    • Magnetic field, magnetic force on a moving charge, magnetic field due to a current carrying conductor, Biot-Savart law, Ampere’s law, magnetic moment, torque on a magnetic dipole, magnetic flux, Faraday’s law of electromagnetic induction, Lenz’s law, self and mutual inductance, magnetic materials, diamagnetism, paramagnetism, ferromagnetism, hysteresis.
  • Electromagnetic Waves:
    • Electromagnetic spectrum, properties of electromagnetic waves, production and detection of electromagnetic waves, applications of electromagnetic waves.
  • Alternating Current:
    • Alternating current, peak and rms values, phase difference, impedance, power factor, resonance, LCR circuit, transformers.
  • Ray Optics and Wave Optics:
    • Reflection and refraction of light, laws of reflection and refraction, Snell’s law, total internal reflection, critical angle, optical instruments, human eye, defects of vision, correction of defects of vision, wave nature of light, Huygens’ principle, interference, diffraction, Young’s double slit experiment, diffraction grating, polarization of light.
  • Dual Nature of Radiation and Matter:
    • Photoelectric effect, Compton effect, de Broglie hypothesis, wave-particle duality, Davisson-Germer experiment.
  • Atoms and Nuclei:
    • Bohr’s model of hydrogen atom, energy levels, spectral series, X-rays, radioactivity, alpha, beta and gamma decay, nuclear fission and fusion, nuclear reactor, nuclear energy.
  • Semiconductors:
    • Energy bands in solids, conductors, insulators and semiconductors, intrinsic and extrinsic semiconductors, p-type and n-type semiconductors, p-n junction diode, forward and reverse bias, diode as a rectifier, transistor, transistor as an amplifier, transistor as a switch, logic gates, integrated circuits.

Chemistry

  • Solid State:
    • Classification of solids, types of solids, amorphous and crystalline solids, unit cell, packing efficiency, crystal systems, Bragg’s law, defects in solids, electrical and magnetic properties of solids.
  • Solutions:
    • Types of solutions, concentration of solutions, solubility, factors affecting solubility, colligative properties, Raoult’s law, ideal and non-ideal solutions, Van’t Hoff factor.
  • Electrochemistry:
    • Electrochemical cells, galvanic cells, electrolytic cells, Faraday’s laws of electrolysis, conductance, specific conductance, molar conductance, Kohlrausch’s law, batteries, fuel cells, corrosion.
  • Chemical Kinetics:
    • Rate of reaction, factors affecting rate of reaction, order and molecularity of reactions, rate constant, integrated rate laws, activation energy, collision theory, Arrhenius equation, catalysis, surface catalysis, enzyme catalysis.
  • Surface Chemistry:
    • Adsorption, types of adsorption, factors affecting adsorption, adsorption isotherms, Freundlich adsorption isotherm, Langmuir adsorption isotherm, catalysis, homogeneous and heterogeneous catalysis, enzyme catalysis, colloids, types of colloids, properties of colloids, Tyndall effect, Brownian movement, electrophoresis, coagulation, emulsions.
  • General Principles and Processes of Isolation of Elements:
    • Principles of metallurgy, extraction of metals, refining of metals, occurrence and extraction of metals, properties and uses of metals.
  • p-Block Elements:
    • Group 13 to 18 elements, general characteristics, trends in properties, preparation, properties and uses of compounds of p-block elements.
  • d- and f-Block Elements:
    • Transition elements, general characteristics, trends in properties, preparation, properties and uses of compounds of d-block elements, lanthanoids and actinoids, general characteristics, trends in properties, preparation, properties and uses of compounds of f-block elements.
  • Coordination Compounds:
    • Nomenclature, isomerism, bonding, stability constants, applications of coordination compounds.
  • Haloalkanes and Haloarenes:
    • Nomenclature, preparation, properties and reactions of haloalkanes and haloarenes.
  • Alcohols, Phenols and Ethers:
    • Nomenclature, preparation, properties and reactions of alcohols, phenols and ethers.
  • Aldehydes, Ketones and Carboxylic Acids:
    • Nomenclature, preparation, properties and reactions of aldehydes, ketones and carboxylic acids.
  • Amines:
    • Nomenclature, preparation, properties and reactions of amines.
  • Biomolecules:
    • Carbohydrates, proteins, lipids, nucleic acids, their structure, properties and functions.
  • Polymers:
    • Classification of polymers, natural and synthetic polymers, addition and condensation polymerization, properties and applications of polymers.
  • Chemistry in Everyday Life:
    • Chemicals in medicines, food, cosmetics, detergents, pesticides, polymers, dyes and paints.

Mathematics

  • Relations and Functions:
    • Types of relations, equivalence relations, functions, types of functions, inverse functions, composite functions, binary operations.
  • Inverse Trigonometric Functions:
    • Definition, properties, graphs, and applications of inverse trigonometric functions.
  • Matrices:
    • Types of matrices, operations on matrices, determinants, properties of determinants, inverse of a matrix, rank of a matrix, solution of linear equations using matrices.
  • Determinants:
    • Properties of determinants, cofactors, minors, adjoint of a matrix, inverse of a matrix, applications of determinants.
  • Continuity and Differentiability:
    • Continuity of functions, differentiability of functions, derivatives of functions, applications of derivatives, maxima and minima, rate of change, tangents and normals.
  • Applications of Derivatives:
    • Increasing and decreasing functions, maxima and minima, rate of change, tangents and normals, approximation, Rolle’s theorem, Lagrange’s mean value theorem.
  • Integrals:
    • Indefinite integrals, definite integrals, properties of definite integrals, applications of integration, area under a curve, volume of solids of revolution.
  • Differential Equations:
    • Formation of differential equations, order and degree of a differential equation, solution of differential equations, linear differential equations, applications of differential equations.
  • Vectors:
    • Vectors in two and three dimensions, addition and subtraction of vectors, scalar and vector products, scalar triple product, vector triple product, applications of vectors in geometry and physics.
  • Three Dimensional Geometry:
    • Direction cosines and direction ratios, equation of a line in space, equation of a plane, angle between two lines, angle between a line and a plane, distance between two points, distance between a point and a line, distance between a point and a plane.
  • Linear Programming:
    • Introduction to linear programming, formulation of linear programming problems, graphical method of solving linear programming problems, simplex method of solving linear programming problems.
  • Probability:
    • Conditional probability, Bayes’ theorem, random variables, probability distributions, binomial distribution, Poisson distribution, normal distribution.
  • Statistics:
    • Measures of central tendency, measures of dispersion, correlation, regression, probability distributions, sampling distributions, hypothesis testing.

Table 1: KVPY Exam Pattern for Mains 2024

Stream Subjects Duration Total Marks
SA Physics, Chemistry, Mathematics 3 hours 240
SB Physics, Chemistry, Mathematics 3 hours 240

Table 2: Weightage of Different Topics in KVPY Mains 2024

Subject Topic Weightage (%)
Physics Mechanics 20
Heat and Thermodynamics 15
Electricity and Magnetism 25
Modern Physics 15
Ray Optics and Wave Optics 15
Dual Nature of Radiation and Matter 5
Atoms and Nuclei 5
Chemistry Basic Concepts of Chemistry 15
Inorganic Chemistry 20
Organic Chemistry 25
Solid State 10
Solutions 5
Electrochemistry 10
Chemical Kinetics 10
Surface Chemistry 5
Mathematics Algebra 25
Trigonometry 10
Coordinate Geometry 15
Calculus 25
Vectors 10
Statistics and Probability 15

Note: The weightage of different topics may vary slightly from year to year.

Preparation Tips for KVPY Mains 2024:

  • Start early: Begin your preparation well in advance to cover the entire syllabus thoroughly.
  • Focus on NCERT textbooks: NCERT textbooks are the foundation for KVPY preparation. Ensure you have a strong understanding of the concepts covered in these books.
  • Practice previous years’ papers: Solving previous years’ papers is crucial to understand the exam pattern, difficulty level, and time management.
  • Join a coaching class: Coaching classes can provide structured guidance, study material, and mock tests.
  • Stay motivated and focused: KVPY preparation requires dedication and perseverance. Stay motivated and focused throughout your journey.
  • Time management: Time management is crucial in the KVPY exam. Practice solving questions within the stipulated time.
  • Revision is key: Regular revision is essential to retain the concepts learned.
  • Take care of your health: A healthy mind and body are essential for effective preparation. Ensure you get enough sleep, eat nutritious food, and exercise regularly.

By following these tips and working hard, you can achieve success in the KVPY Mains 2024 exam.

Frequently Asked Questions (FAQs) and Short Answers for KVPY Mains 2024

General FAQs:

Q: What is the eligibility criteria for KVPY Mains 2024?
A: Students who qualify the KVPY aptitude test (SA/SB) are eligible to appear for the Mains exam.

Q: What is the exam pattern for KVPY Mains 2024?
A: The exam is conducted for 3 hours with a total of 240 marks for both SA and SB streams. It consists of multiple-choice questions (MCQs) from Physics, Chemistry, and Mathematics.

Q: What are the best resources for preparing for KVPY Mains 2024?
A: NCERT textbooks, previous years’ papers, and reputable coaching materials are highly recommended.

Q: How can I manage time effectively during the exam?
A: Practice solving mock tests and previous years’ papers within the time limit to improve your time management skills.

Q: What are some tips for staying motivated during preparation?
A: Set realistic goals, break down the syllabus into smaller parts, and reward yourself for achieving milestones.

Physics FAQs:

Q: What are the key concepts in Mechanics that are frequently tested?
A: Work-energy theorem, conservation of momentum, rotational motion, and simple harmonic motion.

Q: How can I understand the concepts of electromagnetism better?
A: Focus on Faraday’s law of electromagnetic induction, Lenz’s law, and the properties of magnetic materials.

Q: What are some important applications of modern physics?
A: Photoelectric effect, nuclear fission and fusion, and semiconductors.

Chemistry FAQs:

Q: How can I remember the properties and reactions of different functional groups in organic chemistry?
A: Create flashcards, practice writing reactions, and understand the underlying principles.

Q: What are the key concepts in chemical kinetics and equilibrium?
A: Rate laws, activation energy, and Le Chatelier’s principle.

Q: How can I learn the properties and uses of different elements and their compounds?
A: Use periodic trends, group characteristics, and create a systematic study plan.

Mathematics FAQs:

Q: What are the most important topics in calculus?
A: Differentiation, integration, and applications of derivatives.

Q: How can I improve my problem-solving skills in coordinate geometry?
A: Practice solving a variety of problems, understand the standard equations of conic sections, and visualize geometric concepts.

Q: What are some common mistakes to avoid in probability and statistics?
A: Pay attention to the wording of questions, understand the different types of probability distributions, and practice interpreting data.

Remember: These are just a few examples of frequently asked questions. It’s important to review the entire syllabus and identify your strengths and weaknesses to create a personalized study plan.