JEE - Joint Entrance Exam

Online course for engineering entrance exam (JEE) conducted by NTA. The course covers Physics, Chemistry and Mathematics.

01. Units and Measurement

01. System of Units
02. Errors in Measurement
03. Significant Figures
04. Dimensional Analysis

02. Kinematics

01. Introduction
02. Uniform Accelerated Motion
03. Time Graphs
04. Motion Under Gravity
05. Motion in a Plane
06. Projectile Motion
07. Uniform Circular Motion
08. Applications of Uniform Circular Motion

03. Laws of Motion

01. Introduction
02. First Law of Motion
03. Second Law of Motion
04. Impulse of Force
05. Third Law of Motion
06. Friction
07. Methods of Reducing Friction
08. Circular Motion
09. Inertial and Non Inertial Frames

04. Work, Power and Energy

01. Work
02. Positive and Negative Work
03. Work Done by Gravity
04. Work Done by Spring
05. Energy
06. Potential Energy in Gravity
07. Conservation of Energy
08. Power
09. Conservative and Dissipative Forces
10. Collisions

05. Rotational Motion

01. Introduction
02. Centre of Mass
03. Moment of Inertia (I)
04. Torque & Angular Momentum
05. Radius of Gyration - K
06. Theorems of Perpendicular & Parallel Axes
07. Linear and Rotational Motion
08. Rolling Bodies
09. Symmetric Bodies

06. Gravitation

01. Newton's Law of Gravitation
02. Field Strength
03. Gravitational Potential
04. Gravitational Potential Energy
05. Escape Velocity
06. Kepler's Laws
07. Artificial Satellites
08. Points to Note

07. Simple Harmonic Motion

01. Periodic Motion
02. SHM: Circle of Reference
03. Simple Harmonic Motion
04. Type of Oscillations
05. Spring-Mass System
06. Simple Pendulum
07. Resonance

08. Waves and Sound

01. Transverse and Longitudinal Wave
02. Wave Motion
03. Velocity of Sound in a Gas
04. Superposition of Waves
05. Reflection of Waves
06. Standing Waves
07. Beats
08. Travelling and Standing Waves
09. Organ Pipes
10. Electromagnetic Spectrum
11. Doppler Effect

09. Properties of Solids

01. Molecular Theory of Matter
02. Elasticity
03. Stress and Strain
04. Young, Shear, Bulk Modulus
05. Stress-Strain Curve
06. Poisson’s Ratio

10. Properties of Fluids

01. Mechanical Properties of Fluids
02. Pressure
03. Pascal's Law
04. Fluid Dynamics
05. Equation of Continuity
06. Bernoulli’s Principle
07. Viscosity
08. Stoke's Law
09. Reynolds Number
10. Surface Tension
11. Surface Energy
12. Excess Pressure
13. Shape of Liquid Meniscus

11. Heat and Thermodynamics

01. Heat and Temperature
02. Thermal Expansion
03. Specific Heat Capacity
04. Latent Heat & Heat Transfer
05. Newton's Law of Cooling
06. Heat and Temperature
07. Zeroth Law of Thermodynamics
08. First Law of Thermodynamics
09. Second Law of Thermodynamics
10. Thermodynamic Processes
11. Carnot Engine
12. Ideal Gas Equation
13. Kinetic Theory of Gas
14. Law of Equipartition of Energy

12. Electrostatics

01. Introduction
02. Coulomb's Law
03. Electric Field
04. Electric Dipole
05. Electric Field Lines
06. Electric Flux and Gauss Theorem
07. Electric Potential
08. Potential Difference
09. Electric Potential Energy
10. Behavior of Conductors in Electric Field
11. Capacitors and Capacitance
12. Combination of Capacitors
13. Energy Stored in Capacitor
14. Dielectrics and Dielectric Polarization

13. Current Electricity

01. Electric Current
02. Ohm's Law
03. Resistance and Resistivity
04. Electric Cells
05. Kirchhoff's Laws
06. Wheatstone Bridge
07. Potentiometer
08. Comparison of EMFs of Two Cells
09. Internal Resistance of Cell
10. Drift Velocity of Electrons
11. Power Consumed in Electrical Circuit

14. Magnetism

01. Introduction
02. Biot Savart Law
03. Ampere's Law
04. Lorentz Force
05. Cyclotron Frequency
06. Force on Current Carrying Conductors
07. Current Loop in Uniform Magnetic Field
08. Ammeter
09. Voltmeter
10. Magnets and Bar Magnet
11. Earth's Magnetic Field
12. Magnetic Susceptibility & Permeability
13. Magnetic Materials

15. EMI and AC

08. AC Source Connected to Capacitor
09. LCR Series Circuit
10. Resonance
11. Transformer
01. Magnetic Flux & Faraday's Law of Induction
02. Lenz's Law
03. Eddy Currents
04. Self and Mutual Induction
05. LR Circuits
06. Alternating Current and Voltage
07. AC Source Connected to Resistor

16. EM Waves

01. Introduction
02. Properties of Electromagnetic Waves
03. Electromagnetic Spectrum
04. Applications of EM Waves

17. Optics

01. Laws of Reflection
02. Focus
03. Mirror Equation
04. Laws of Refraction
05. Total Internal Reflection
06. Applications of Total Internal Reflection
07. Refraction at Spherical Surface & Lens
08. Combination of Lenses
09. Prism
10. Microscope
11. Telescope
12. Wavefront
13. Huygens Principle
14. Principle of Superposition of Waves
15. Interference of Light
16. Young's Double Slit Experiment
17. Diffraction
18. Polarization

18. Dual Nature of Radiation and Matter

01. Introduction
02. Photoelectric Effect
03. Einstein Photoelectric Equation
04. Particle Nature of Light
05. Wave Nature of Matter
06. de Broglie Equation
07. Heisenberg's Uncertainty Principle
08. Davisson and Germer Experiment

19. Atoms and Nuclei

01. Introduction

20. Electronic Devices

01. Introduction
02. Intrinsic Semiconductors
03. Extrinsic Semiconductors
04. p-n Junction
05. p-n Diode
06. Transistor
07. Logic Gates
08. Integrated Circuits

21. Communication Systems

01. Introduction
02. Basic Terms
03. Propagation of Electromagnetic Waves
04. Modulation
05. Bandwidth of Signals
06. Bandwidth of Transmission Medium

22. Experimental Skills

01. List of Experiments
02. Vernier Calliper
03. Screw Gauge
04. Simple Pendulum
05. Metre Scale
06. Young's Modulus
07. Surface Tension
08. Viscosity
09. Newton's Law of Cooling
10. Resonance Tube
11. Specific Heat Capacity
12. Meter Bridge
13. Ohm's Law
14. Potentiometer
15. Galvanometer
16. Focal Length
17. Triangular Prism
18. Travelling Microscope
19. P-N Junction Diode
20. Zener Diode
21. Transistor
22. Identification of Electronic Devices

01. Basic Concepts in Chemistry

01. Introduction
02. Laws of Chemical Composition
03. Dalton's Atomic Theory
04. Atomic and Molecular Masses
05. Mole Concept
06. Mole, Mass and Number Relationship
07. Molecular and Empirical Formula
08. Formula Stoichiometry
09. Important Formulas
10. Chemical Equation and Reaction Stoichiometry

02. Atomic Structure

01. Introduction
02. Dalton's Atomic Theory
03. Electron, Proton & Neutron
04. Electromagnetic Radiations
05. Atomic Spectrum
06. Atomic Models
07. Planck’s Quantum Theory
08. Photoelectric Effect
09. Bohr's Atomic Structure
10. Dual Nature of Electron
11. Heisenberg's Uncertainty Principle
12. Schrödinger Wave Equation
13. Quantum Numbers
14. Shape of Orbitals
15. Filling of Electrons

03. Chemical Bonding

01. Chemical Bond
02. Law of Octet
03. Covalent Bond
04. Ionic Bond
05. Bond Parameters
06. Dipole Moment
07. Fajans Rule
08. Valence Shell Electron Pair Repulsion Theory
09. Valence Bond Theory
10. Hybridization of Orbitals
11. Molecular Orbital Theory
12. Hydrogen Bonding

04. Gaseous State

01. Three States of Matter
02. Boyle's Law
03. Charles' Law
04. Gay Lussac Law
05. Avogadro's Law
06. Ideal Gas Equation
07. Daltons Law of Partial Pressure
08. Graham's Law of Diffusion
09. Kinetic Molecular Theory of Gases
10. Distribution of Molecular Speeds
11. Deviation From Ideal Gas Behavior
12. Liquefaction of Gases

05. Liquid State

01. Introduction
02. Van der Waals Forces
03. Properties of Liquids
04. Vapor Pressure and Boiling Point
05. Surface Tension
06. Viscosity

06. Solid State

01. Classification of Solids
02. Close Packed Structures of Solids
03. Crystal Lattices and Unit Cells
04. Cubic Unit Cells
05. Structures of Ionic Solids
06. Defects in Ionic Crystals
07. Magnetic Properties

07. Chemical Solutions

01. Components of Solution
02. Concentration of Solution
03. Types of Solutions
04. Vapor Pressure of Liquid Solutions
05. Raoult’s Law for Solutions
06. Relative Lowering of Vapour Pressure
07. Ideal and Non-Ideal Solutions
08. Colligative Properties
09. Abnormal Colligative Properties
10. Key Formulas for Colligative Properties

08. Equilibrium

01. Introduction
02. Reversible and Irreversible Reactions
03. Characteristics of Equilibrium State
04. Equilibrium in Physical Processes
05. Homogeneous and Heterogeneous Systems
06. Concentration Equilibrium Constant
07. Pressure Equilibrium Constant
08. Relation between Kp and Kc
09. Factors Affecting Equilibrium State
10. Concepts of Acids and Bases
11. Relative Strength of Acids and Bases
12. Ionization of Weak Acids & Bases
13. Degree of Ionization
14. Self-Ionization of Water
15. pH Scale
16. Buffer Solutions
17. Salt Hydrolysis
18. Solubility Equilibria

09. Redox Reactions and Electrochemistry

01. Introduction
02. Oxidation Number
03. Types of Redox Reactions
04. Balancing of Redox Reactions
05. Redox Reactions and Electrode Processes
06. Introduction
07. Galvanic Cells
08. Faraday's Laws of Electrolysis
09. Arrhenius Theory of Electrolytic Dissociation
10. Nernst Equation
11. Variation of Conductivity and Molar Conductivity

10. Chemical Kinetics

01. Introduction
02. Factors Affecting Rate of a Reaction
03. Rate Law
04. Zero Order Reactions
05. First Order Reactions
06. Temperature Dependence of Rate Constant

11. Chemical Thermodynamics

01. Introduction
02. System and Surroundings
03. Types of Processes
04. Thermochemical Equations
05. First Law of Thermodynamics
06. Heat Capacity
07. Enthalpy
08. Standard Enthalpy of Reactions
09. Laws of Thermochemistry
10. Bond Enthalpies
11. Entropy
12. Second Law of Thermodynamics
13. Phase Transitions and Absolute Entropy
14. Gibbs Energy
15. Terms and Definitions

12. Surface Chemistry

01. Adsorption
02. Types of Adsorption
03. Factors Affecting Adsorption
04. Adsorption Isotherms
05. Applications of Adsorption
06. Catalysis
07. Colloids
08. Emulsions

13. Basic Organic Chemistry

18. Organic Chemistry Reactions
01. Introduction
02. Tetravalence of Carbon
03. Classification of Organic Compounds
04. Nomenclature of Organic Compounds
05. IUPAC - Straight Chain Hydrocarbons
06. IUPAC - Branched Chain Hydrocarbons
07. IUPAC - Alicyclic Compounds
08. IUPAC - Aromatic Compounds
09. IUPAC - Functional Groups
10. Isomerism
11. Structural Isomerism
12. Stereoisomerism
13. Fission of Covalent Bond
14. Inductive Effects (I Effect)
15. Resonance
16. Electromeric Effect (E effect)
17. Hyperconjugation

14. Hydrocarbons

01. Introduction
02. Naming of Hydrocarbons / IUPAC
03. Alkanes
04. Preparation of Alkanes
05. Properties of Alkanes
06. Halogenation of Alkanes
07. Alkenes
08. Preparation of Alkenes
09. Properties of Alkenes
13. Aromatic Hydrocarbon
14. Preparation of Benzene
15. Properties of Aromatic Hydrocarbons
10. Alkynes
11. Preparation of Alkynes
12. Properties of Alkynes
16. Directive Influence of Functional Group

15. Organic Compounds with Halogens

01. Introduction
02. Classification
03. Methods of Preparation
04. Physical Properties
05. Chemical Reactions
06. Reactions of Haloarenes
07. Polyhalogen Compounds

16. Organic Compounds with Oxygen

01. Classification of Alcohols
02. Preparation of Alcohols
03. Preparation of Phenols
04. Physical Properties
05. Chemical Reactions
06. Reactions of Phenol
07. Preparation of Ethers
08. Chemical Reactions of Ethers
09. Carbonyl Group
10. Preparation of Aldehydes and Ketones
11. Physical Properties
12. Chemical Reactions

17. Organic Compounds with Nitrogen

01. Introduction to Amines
02. Preparation of Amines
03. Physical Properties
04. Chemical Reactions
05. Nitro Compounds

18. Polymers

01. Introduction
02. Classification of Polymers
03. Polymerization Reactions
04. Rubber

19. Biomolecules

01. Introduction
02. Carbohydrates
03. Proteins
04. Vitamins
05. Nucleic Acids

20. Chemistry in Everyday Life

01. Cleansing Agents
02. Soaps
03. Synthetic Detergents

21. Classification of Elements

01. Introduction
02. Mendeleev's Periodic Table
03. Periodic Table
05. Facts about Periodic Table
04. Periodic Table Trends

22. Isolation of Metals

01. Occurrence of Elements
02. Methods of Concentration of Ores
03. Methods of Reduction
04. Methods Used in Refining

23. Hydrogen

01. Introduction
02. Properties and Isotopes of Hydrogen
03. Preparation & Reactions of Dihydrogen
04. Hydrides
05. Water
06. Hydrogen Peroxide
07. Heavy Water

24. s-Block Elements

01. Introduction
02. Trends in Physical & Chemical Properties
03. Diagonal Relationship
04. Alkali Metals
05. Alkaline Earth Metals
06. Portland Cement

25. p-Block Elements

01. Introduction
02. Group 13
03. Group 14
04. Group 15
05. Group 16
06. Group 17
07. Group 18

26. d- & f- Block Elements

01. Introduction
02. Transition Elements
03. Inner Transition Elements

27. Coordination Compounds

01. Introduction
02. Definitions
03. Isomerism
04. Valence Bond Theory
05. Crystal Field Theory
06. Importance of Coordination Compounds

01. Sets, Relations and Functions

Introduction To Sets
Type of Sets
Operations on Sets
Relation
Types of Relation
Functions

02. Quadratic Equations

Quadratic Formula
Discriminant and Nature of Roots
Sum and Product of Roots
Maximum or Minimum Value

03. Vectors

Introduction to Vectors
Position Vector
Direction Cosines
Direction Ratios
Type of Vectors
Addition of Vectors
Multiplication of Vector by Scalar
Product of Two Vectors

04. Complex Numbers

Introduction to Complex Numbers
Roots of Complex Number
Algebraic Operations
Conjugate
Modulus (Absolute Value)
Geometrical Representation
Polar Form
Exponential Form
Cube Roots of Unity
De Moivre's Theorem

05. Matrices and Determinants

Matrix
Test of Consistency
Types of Matrices
Operation on Matrices
Matrix Multiplication
Transpose of a Matrix
Adjoint of Matrix
Inverse Matrix
Determinant
Area of a Triangle

06. Permutation and Combination

Fundamental Principle of Counting
Factorial
Permutations (Arrangements)
Circular Permutations
Combination (Selection)
Properties of Combinations

07. Binomial Theorem

Introduction to Binomial Theorem
Middle Terms
Pascal's Triangle

08. Sequences and Series

Progressions
Arithmetic Progression
Geometric Progression
Means of Progressions

09. Functions, Limits and Continuity

Calculus
Limits
Algebra of Limits
Standard Limits
Formula for Limits
Continuous Functions

10. Differentiation

Differentiability
Standard Derivatives
Rate of Change of Quantities
Increasing and Decreasing Functions
Tangents and Normals
Maxima and Minima

11. Integration

Integration
Indefinite Integrals
Properties of Indefinite Integration
Some Standard Integrals
Integration By Substitution
Integration By Partial Fractions
Integrals of Special Functions

12. Differential Equations

Introduction to Differential Equations
Variable Separable Method
Homogeneous Differential Equation
Linear Differential Equations

13. Coordinate Geometry

Introduction to Coordinate Geometry
Introduction to Conic Sections
Parabola
Tangent and Normal to Parabola
Ellipse
Hyperbola
Distance Formula
Midpoint Formula
Slope of Line
Equation of Line
Distance from Point to Straight Line
Angle between two Straight Lines
Equation of Circle
General Equation of Circle

14. 3D Geometry

Introduction to 3D Geometry
Direction Cosines & Direction Ratios
Skew Lines

15. Statistics

Introduction to Statistics
Range
Mean Deviation
Variance and Standard Deviation
Standard Deviation

16. Probability

Probability Terms
Probability
Conditional Probability

17. Trigonometry

Angle and Measurement
Trigonometrical Equations
sin θ = 0, cos θ = 0, tan θ = 0
sin θ = sin α, cos θ = cos α, tan θ = tan α
a cosθ + b sinθ = c
Inverse Trigonometrical Functions
Inverse T-Functions Properties
Quadrants
Trigonometrical Ratios
T-Ratios of Related Angles
Properties of Trigonometric Functions
Compound Angles: A+B and A−B
Multiple Angle Identities
Sum to Product Identities
Conditional Identities