Curriculum
- 11 Sections
- 184 Lessons
- 10 Weeks
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- 1.01 Basic Concepts13
- 1.02 Experimental Techniques in Chemistry6
- 1.03 Gases12
- 1.04 Liquids and Solids13
- 1.05 Atomic Structure25
- 6.0Introduction
- 6.1Discovery of Electron
- 6.2Discovery of Proton
- 6.3Discovery of Neutron
- 6.4Determination of e/m of Electron
- 6.5Millikan Oil Drop Method
- 6.6Rutherford Atomic Model
- 6.7Planck’s Quantum Theory
- 6.8Bohr’s Atomic Model (1)
- 6.9Bohr’s Atomic Model (2)
- 6.10Spectrum
- 6.11Hydrogen Spectrum
- 6.12Problems in Bohr’s Atomic Model
- 6.13X-Rays
- 6.14Dual Nature of Matter
- 6.15Experimental Verification of Dual Nature
- 6.16Heisenberg’s Uncertainity Principle
- 6.17Concept of Orbitals
- 6.18Quantum Numbers
- 6.19Principal Quantum Number
- 6.20Azimuthal Quantum Number
- 6.21Magnetic Quantum Number
- 6.22Spin Quantum Number
- 6.23Shapes of Orbitals
- 6.24Electronic Distribution
- 1.06 Chemical Bonding30
- 7.0Introduction
- 7.1Causes of Chemical Bonding
- 7.2Energetics of Bond Formation
- 7.3Atomic Sizes
- 7.4Ionic Radii
- 7.5Covalent Radii
- 7.6Ionization Energy
- 7.7Higher Ionization Energy
- 7.8Electron Affinity
- 7.9Electronegativity
- 7.10Ionic Bond
- 7.11Covalent Bond
- 7.12Coordinate Covalent Bond
- 7.13Limitations of Lewis Model
- 7.14Valence-Shell Electron-Pair Repulsion Theory (1)
- 7.15Valence-Shell Electron-Pair Repulsion Theory (2)
- 7.16Valence Bond Theory
- 7.17Atomic Orbital Hybridization
- 7.18SP3 Hybridization
- 7.19SP2 Hybridization
- 7.20SP Hybridization
- 7.21Molecular Orbital Theory
- 7.22Energies of Molecular Orbitals
- 7.23Molecular Orbital Structures
- 7.24Bond Energy
- 7.25Ionic Character and Bond Energy
- 7.26Bond Length
- 7.27Dipole Moment
- 7.28Dipole Moment and Molecular Structure
- 7.29Effect of Bonding
- 1.07 Thermochemistry13
- 8.0Introduction (1)
- 8.1Introduction (2)
- 8.2Spontaneous and Non-Spontaneous Reactions
- 8.3System Surrounding and State Function
- 8.4Internal Energy
- 8.5First Law of Thermodynamics
- 8.6Enthalpy
- 8.7Different Enthalpies (1)
- 8.8Different Enthalpies (2)
- 8.9Glass Calorimeter
- 8.10Bomb Calorimeter
- 8.11Hess’s Law of Heat Summation
- 8.12Born Haber Cycle
- 1.08 Chemical Equilibrium23
- 9.0Introduction
- 9.1Reversible and Irreversible Reactions
- 9.2Chemical Equilibrium
- 9.3Law of Mass Action
- 9.4Units of Equilibrium Constant
- 9.5Equilibrium Constant of Some Chemical Reactions
- 9.6Relation Between Equilibrium Constants
- 9.7Applications of Equilibrium Constants (1)
- 9.8Applications of Equilibrium Constants (2)
- 9.9Le Chatlier’s Principle (1)
- 9.10Le Chatlier’s Principle (2)
- 9.11Le Chatlier’s Principle (3)
- 9.12Industrial Applications of Chemical Equilibrium
- 9.13Ionic Product of Water
- 9.14Ionization Constant of Acids
- 9.15Ionization Constant of Bases
- 9.16Lowry-Bronsted Concept of Acids and Bases
- 9.17Common Ion Effect
- 9.18Buffer Solutions
- 9.19pH of Buffer Solutions
- 9.20Buffer Capacity
- 9.21Solubility Product
- 9.22Applications of Solubility Product
- 1.09 Solutions16
- 10.0Introduction
- 10.1Concept of Solution
- 10.2Molarity and Molality
- 10.3Mole Fraction and PPM
- 10.4Interconversion of Concentration Units
- 10.5Types of Solution 1
- 10.6Types of Solution 2
- 10.7Raoult’s Law
- 10.8Raoult’s Law with Volatile Components
- 10.9Vapor Pressure of Ideal Solutions
- 10.10Vapor Pressure of Non-Ideal Solutions
- 10.11Solubility and Solubility Curve
- 10.12Colligative Properties
- 10.13Lowering of Vapor Pressure
- 10.14Elevation of Boiling Point
- 10.15Measurement of Boiling Point Elevation
- 1.10 Electrochemistry14
- 11.0Redox Reactions and Oxidation Number
- 11.1Balancing of Redox Equations by Oxidation Number Method (1)
- 11.2Balancing of Redox Equations by Oxidation Number Method (2)
- 11.3Ion Electron Method in an Acidic Medium
- 11.4Ion Electron Method in an Basic Medium
- 11.5Fundamentals of Electrolytic Conduction
- 11.6Electrolytic Cell
- 11.7Electrolysis of Fused Salts and Aqueous Solutions
- 11.8Electrolytic Processes of Industrial Importance
- 11.9Galvanic vs Electrolyti Cell
- 11.10Salt Bridge and Reversible Cell Functionality
- 11.11Electrode Potential
- 11.12Standard Hydrogen Electrode (SHE)
- 11.13Measurement of Electrode Potential
- 1.11 Reaction Kinetics19
- 12.0Introduction to Reaction Kinetics
- 12.1Rate of Reaction
- 12.2Instantaneous and Average Rate
- 12.3Specific Rate Constant
- 12.4Order of Reaction
- 12.5Rate Determining Step
- 12.6Method if Initial Rates
- 12.7Physical Methods for Rates of Reactions
- 12.8Chemical Method for Rate of Reaction
- 12.9Half Life Period
- 12.10Determining Order Using Half Life Method
- 12.11Activation Energy and Reaction Dynamics
- 12.12Potential Energy Diagram for Reaction Mechanism
- 12.13Effect of Nature and Concentration of Reactants on Reaction Rates
- 12.14Effect of Surface Area and Light Reaction Rate
- 12.15Effect of Temperature and Arrhenius Equation
- 12.16More on Arrhenius Equation
- 12.17Catalysis (1)
- 12.18Catalysis (2)
