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XuetangX

General Chemistry

Nankai University via XuetangX

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Overview

 

General Chemistry

Chapter 1: The Foundations of Chemistry

1.1 Basic Concepts

1.2 Gases, Liquids and Solutions

1.3 Errors and Significant Digits

Chapter 2: Atomic Structure and the Periodic Properties of Elements

2.1 The Law of the Motion of Microscopic Particles

2.2 The Schrödinger Equations

2.3 Radial Distribution Functions

2.4 Angular Distribution Functions

2.5 Factors Effecting Electron Energy

2.6 The Periodic Properties of Elements

Chapter 3: Covalent Bond Theories

3.1 Basic concepts of Chemical Bonds

3.2 Lewis’ Theories

3.3 Valence Bond Theories

3.4 Hybrid Orbital Theories

3.5 Valence Shell Electron Pair Repulsion Theories

3.6 Molecular Orbital Theories

Chapter 4: Crystal Types and Intermolecular Forces

4.1 Crystal Types

4.2 Molecular Crystal and Intermolecular Forces

4.3 Ionic Crystal and Ionic Bonds

4.4 Polarization of Ions

4.5 Metallic Crystal and Metallic Bonds

Chapter 5: Preliminary Chemical Thermodynamics

5.1 Basic concepts of Chemical Thermodynamics

5.2 First Law of Thermodynamics

5.3 Third Law of Thermodynamics

5.4 Second Law of Thermodynamics

Chapter 6: The Rates of Chemical Reactions

6.1 Chemical Reaction Rate and Expression

6.2 Effects of External Conditions on Reaction Rate

Chapter 7: Chemical Equilibria

7.1 Chemical Equilibrium Constant

7.2 Shifting of Chemical Equilibrium

Chapter 8: Acids & Bases Equilibrium

8.1 Electrolyte Solution Theories

8.2 The Development of Acids & Bases Theories

8.3 Weak Acids & Bases Ionization Equilibria

8.4 Buffered Solution

Chapter 9: The Equilibrium of Precipitation

9.1 The Equilibrium of Precipitation

9.2 Shifting of The Equilibrium of Precipitation

Chapter 10: Oxidation-Reduction Reactions

10.1 Oxidation-Reduction Reactions

10.2 Primary Cells and Electrode Potential

10.3 Thermodynamics of Cell Reactions and The Factors Affecting Electrode Potential

10.4 The Applications

Chapter 11: Coordination Compounds

11.1 Basic concepts of Coordination Compounds

11.2 Stereochemistry of Coordination Compounds

11.3 Bonding Theories of Coordination Compounds — Valence Bond Theories

11.4 Bonding Theories of Coordination Compounds — Crystal Field Theories

11.5 Stability and Equilibrium Coordination Compounds

Chapter 12: Elemental Commonality

12.1 The Origins of Elements

12.2 The Main Group Elements — s-block

12.3 The Main Group Elements — p-block

12.4 The Transition Metal Elements — d-block and ds-block

12.5 The Rare Earth Elements — f-block

 

 

 

 

Syllabus

  • Chapter 1: The Foundations of Chemistry
    • 1.1 Basic Concepts
    • 1.2 Gases, Liquids and Solutions
    • 1.3 Errors and Significant Digits
  • Chapter 2: Atomic Structure and the Periodic Properties of Elements
    • 2.1 The Law of the Motion of Microscopic Particles
    • 2.2 The Schrödinger Equations
    • 2.3 Radial Distribution Functions
    • 2.4 Angular Distribution Functions
    • 2.5 Factors Effecting Electron Energy
    • 2.6 The Periodic Properties of Elements
  • Chapter 3: Covalent Bond Theories
    • 3.1 Basic concepts of Chemical Bonds
    • 3.2 Lewis’ Theories
    • 3.3 Valence Bond Theories
    • 3.4 Hybrid Orbital Theories
    • 3.5 Valence Shell Electron Pair Repulsion Theories
    • 3.6 Molecular Orbital Theories
  • Chapter 4: Crystal Types and Intermolecular Forces
    • 4.1 Crystal Types
    • 4.2 Molecular Crystal and Intermolecular Forces
    • 4.3 Ionic Crystal and Ionic Bonds
    • 4.4 Polarization of Ions
    • 4.5 Metallic Crystal and Metallic Bonds
  • Chapter 5: Preliminary Chemical Thermodynamics
    • 5.1 Basic concepts of Chemical Thermodynamics
    • 5.2 First Law of Thermodynamics
    • 5.3 Third Law of Thermodynamics
    • 5.4 Second Law of Thermodynamics
  • Chapter 6: The Rates of Chemical Reactions
    • 6.1 Chemical Reaction Rate and Expression
    • 6.2 Effects of External Conditions on Reaction Rate
  • Chapter 7: Chemical Equilibria
    • 7.1 Chemical Equilibrium Constant
    • 7.2 Shifting of Chemical Equilibrium
  • Chapter 8: Acids & Bases Equilibrium
    • 8.1 The Development of Acids & Bases Theories
    • 8.2 Weak Acids & Bases Ionization Equilibria
  • Chapter 9: The Equilibrium of Precipitation
    • Chapter 10: Oxidation-Reduction Reactions
      • 10.1 Basic Concepts of Oxidation-Reduction Reactions
      • 10.2 Primary Cells and Electrode Potential
      • 10.3 Thermodynamics of Cell Reactions and the Factors Affecting Electrode Potential
      • 10.4 The Applications
    • Chapter 11: Coordination Compounds
      • 11.1 Basic Concepts of Coordination Compounds
      • 11.2 Stereochemistry of Coordination Compounds
      • 11.3 Bonding Theories of Coordination Compounds — Valence Bond Theories
      • 11.4 Bonding Theories of Coordination Compounds — Crystal Field Theories
      • 11.5 Stability and Equilibrium Coordination Compounds
    • Chapter 12: Elemental Commonality
      • 12.1 The Origins of Elements
      • 12.2 The Main Group Elements — s-block
      • 12.3 The Main Group Elements — p-block
      • 12.4 The Transition Metal Elements — d-block and ds-block
      • 12.5 The Rare Earth Elements — f-block
    • Final Examination
      • Final Examination

    Taught by

    Xiaohang Qiu, Jiangong Ma, and Baolin Zhu

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