Topic outline

  • COURSE INFORMATION



  • Topic 1

    Chapter 1 Kinetic Theory of Gases (Part A)

    1.1 Gases and Its Properties

    1.2 Gas Law

    1.3 Gases Properties Calculation

    1.4 Kinetic Molecular Theory

  • Topic 2

    Chapter 1 Kinetic Theory of Gases (Part B)

    1.5 Derivation of Ideal Gas using Theory of Molecular Kinetic

    1.6 Boltzman Constant Relationship

  • Topic 3

    Chapter 2 Collisions of Gases Molecules

    2.1 Average Speed of Molecules in A Gas

    2.2 Diffusion and Effusion

    2.3 Graham's Law

    2.4 Mean Free Path

    2.5 Fick's First Law

    2.6 Real Gas

  • Topic 4

    Chapter 3 Ideal and Non Ideal Solution (Part A)

    3.1 Type of Solution

    3.2 Energy Changes in Solution

    3.3 Degree of Saturation

    3.4 Factors Affecting Solubility

    3.5 Henry's Law

    3.6 Concentration of Solution

  • Topic 5

    Chapter 3 Ideal and Non Ideal Solution (Part B)

    3.6 Colligative Properties of Solution

    3.7 Colligative Properties of Electrolyte

    3.8 Colloid

  • Topic 6

    Chapter 4 Reaction Mechanism (Part A)

    4.1 Theory of Chemical Kinetic

    4.2 Reaction Rate

    4.3 Rate Law and Reaction Order

    4.4 Integrated Rate Law

    4.5 Half-life

  • Topic 7

    Chapter 4 Reaction Mechanism (Part B)

    4.6 Reaction Rate and Temperature

    4.7 Collision Theory

    4.8 Arrhenius Equation

    4.9 Reaction Mechanism

    4.10 Molecularity

    4.11 Rate Laws and Reaction Mechanism

  • Topic 8

    Chapter 5 Thermodynamics (Part A)

    5.1     First Law of Thermodynamics

    5.2     The Nature and Types of Energy

    5.3     Enthalpy of Chemical Reactions

    5.4     Calorimetry


  • Topic 9

    Chapter 5 Thermodynamics (Part B)

    5.5 Entropy

    5.6 Gibbs Free Energy

    5.7 Free Energy and Chemical Equilibrium

  • Topic 10

    Chapter 6 Chemical Equilibrium

    6.1 The Concept of Equilibrium

    6.2 Relate the Kinetics in Chemical Equilibrium

    6.3 Factors

  • Topic 11

    Chapter 7 Surface Chemistry

    7.1 Colloid and Crystalloid

    7.2 Origin of Charge, Gels and Emulsions

    7.3 Surface Growth, Composition and Structure

    7.4 Adsorption

    7.5 Catalysis

  • Topic 12

    Chapter 8 Electrochemistry

    8.1 Introduction

    8.2 Balancing Equation

    8.3 Electromotive Force (emf)

    8.4 Thermodynamics of Redox Reactions

    8.5 Ostwald Dilution Law

    8.6 Activity and Debye-Huckel Limiting Law