Course Content
Stoichiometry
Basic Concept of Atom Part-1
Basic Concept of Atom Part-2
Number of Atom, Molecules & Ions Part-1
Number of Atom, Molecules & Ions Part-2
Number of Atom, Molecules & Ions Part-3
Atomic Mass Unit & Carbon-12
Mole Concept Part-1
Mole Concept Part-2
Mass & Volume Part-1
Mass & Volume Part-2
Percentage Composition
Empirical & Molecular Formula
Limiting & Excess Reagent Part-2
Percentage Yield
Isotopes Concept
Atomic Structure
Discovery of Electron
Characteristics of Cathode Rays
Canal/Positive Rays
Discovery of Neutron
Bohr’s Model of Hydrogen Atom Part-1
Bohr’s Model of Hydrogen Atom Part-2
Spectrum of Hydrogen Atom
Planck’s Quantum Theory
Quantum Numbers & Orbitals Part-1
Quantum Numbers & Orbitals Part-2
Quantum Numbers & Orbitals Part-3
Shape Of Orbitals
X-Rays
Moseley’s Experiment
Gases
Gases Introduction
Kinetic Molecular Theory of Gases
Pressure & its Units
Avogadro’s Law
Charle’s Law
Boyle’s Law
Mole-Mass-Volume Relationship of Gases
Idea Gas Equation
Gas Constant R & its Units
Gas Mass-Density & Concentration Calculation
Deviation from Idea Gas Behavior
Compressibility Factor Z
Vander Walls Equation
Dalton’s Law of Partial Pressure
Graham’s Law
Application of Kinetic Molecular Theory of Gases
Liquification of Gases ( Joule Thomson effect & Linde’s Method)
Plasma
Liquids
Kinetic Molecular Interpretation of Liquids
Properties of Liquids
Intermolecular & Molecular Forces (Dipole–Dipole, van der Waals) Part-1
Intermolecular & Molecular Forces (Dipole–Dipole, van der Waals) Part-2
Hydrogen Bonding Part-1
Hydrogen Bonding Part-2
London Forces
Evaporation
Vapor Pressure
Boiling Point & its Application
Surface Tension
Viscosity
Anomalous behaviour of water
Energetics of Phase Changes
Liquid Crystals
Solubility in Water
Solids
Kinetic molecular interpretation of solids
Amorphous Vs Crystalline Solid Part-1
Amorphous Vs Crystalline Solid Part-2
Properties of Crystalline Solids Part-1
Properties of Crystalline Solids Part-2
Crystal Lattice & Unit Cell Part-1
Crystal Lattice & Unit Cell Part-2
Crystal Lattice & Unit Cell Part-3
Lattice Energy Part-1
Lattice Energy Part-2
Chemical Bonding
Doublet or Octet Theory
Ionic,Covalent,Cationic & Anionic Radius
Bond Energy, Bond Length & Ionic Character Part-1
Bond Energy, Bond Length & Ionic Character Part-2
Bond Energy, Bond Length & Ionic Character Part-3
Effect of Bonding on Chemical & Physical Properties
Sigma & Pi Bond
Hybridization Part-1
Hybridization Part-2
VSEPR Theory Part-1
VSEPR Theory Part-2
Shapes of Molecule
Resonance
Dipole Moment
VBT (Valence Bond Theory)
MOT (Molecular Orbital Theory)
Ionization Energy, Electron Affinity, Electronegativity Part-1
Ionization Energy, Electron Affinity, Electronegativity Part-2
Chemical Equilibrium
Reversible Reactions & Dynamic Equilibrium Part-1
Reversible Reactions & Dynamic Equilibrium Part-2
Law of Mass Action & expression for Kc
Equilibrium Constants ( Kc, Kp, Kx, Kn )
Important of KC Part-1
Important of KC Part-2
Le Chatelier’s principle (Factors affecting Equilibrium) Part-1
Le Chatelier’s principle (Factors affecting Equilibrium) Part-2
Haber’s Process
Solubility Product Ksp Part-1
Solubility Product Ksp Part-2
Common Ion Effect
Buffer Solution
Chemical Kinetics
Basics of a chemical reaction
Rate law & Rate of reaction Part-1
Rate law & Rate of reaction Part-2
Rate law & Rate of reaction Part-3
Order of reaction Part-1
Order of reaction Part-2
Factors affecting reaction rate Part-1
Factors affecting reaction rate Part-2
Collision Theory, Transition State & Activation Energy
Thermochemistry
State & State Function
System, Surrounding & Internal Energy
Heat, Specific Heat & Molar Heat Capacity
First Law of Thermodynamics Part-1
First Law of Thermodynamics Part-2
Standard State & Standard Enthalpy Changes Part-1
Standard State & Standard Enthalpy Changes Part-2
Standard State & Standard Enthalpy Changes Part-3
Energy in Chemical Reactions Part-1
Energy in Chemical Reactions Part-2
Calorimetry, Hess’s Law, Born Haber Cycle