当前课程知识点:Inorganic Chemistry > chapter 14 Elements of d-block > 14.6. Elements of The Zinc Group: Understanding Their Property Features, Important Compounds of Zinc and Mercury > chapter 2 discussion
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Chapter discussion:
To demonstrate the essences of the first law of thermodynamics, and how to understand the meaning of each physical parameters in the equation? To discuss its suitable conditions.
返回《Inorganic Chemistry》慕课在线视频列表
-Chapter 1 test
-2.3 Enthalpy and Enthalpy Change(H and H)
-2.5 Reaction formula of thermochemical
-Chapter 2 test
-3.1 Basic Characteristics Of Chemical Equilibrium Constant
-3.2 Expression Of Standard Equilibrium Constant
-3.3 Application Of Standard Equilibrium Constant
-3.4 Chemical Equilibrium Movement
-3.5 Influences of Concentration and Pressure on Chemical Equilibrium state
-3.6 Spontaneous Occurrences and Entropy
-3.7 The Third Law of Thermodynamics and Standard Entropy
-3.8 Standard Mole Gibbs Function of Formation
-Chapter 3 test
-4.1 Development of the Concept and Theory of Acid-Base
-4.2 Relative Strength of Acids or Bases and Dissociation Equilibrium of H2O
-4.3 Application of Standard Equilibrium Constant
-4.4 Equilibrium of Dissociation of Salty Solution
-4.7 Buffer Capacity and Calculation of Buffer Solution
-4.8 Overview of Acid-Base Electronic Theory and Coordination Compounds
-4.9 Composition and Naming of Coordination Compounds
-4.10 Coordinated Equilibrium and Related Reaction
-Chapter 4 text
-5.1 Solubility and Solubility Product
-5.2 Formation and Dissolution of Precipitate
-5.3 The Rule of Solubility Product and Common-Ion Effect
-5.4 Influence of the Formation of Complexes on Solubility - Coordination Dissolution of Precipitate
-5.5 Balance Between Two Kinds of Precipitates
-Chapter 5 text
-6.1 Classification of chemical reactions and basic concepts of REDOX reactions
-6.2 Oxidation state and its Value
-6.3 Construction of Galvanic Cell
-6.5 Standard Electrode Potential
-6.7 Application of Nernst Equation
-6.8 Application of Electrode Potential
-Chapter 6 text
-7.1 Development of Atomic Structure Theory
-7.2 Wave-particle duality of electrons
-7.3 The Schrodinger Equation and Quantum Numbers
-7.5 Multi-Electron Atomic Structure
-7.7 Periodic Law of the Elements
-Chapter 7 text
-8.1 Lewis theory and valence bond theory
-8.2 Valence-shell Electron Pair Mutual Repulsion Theory
-8.4 Bond Parameters: Bond Energy, Bond Length, Bond Angle, Bond Level, and Other Concepts
-8.5 The advantages and disadvantages of molecular theory and valence bond theory
-Chapter 8 text
-9.1 Crystal Structure Characteristics and Types
-9.2 Structure of Metal Crystals and Atomic Crystals
-9.3 Characteristic Structure of Ionic Crystals and Their Lattice Energy
-9.4 Basic Concepts of Molecular Crystals
-Chapter 9 text
-10.1 Spatial Configuration and Magnetic Properties of Coordination Compounds
-10.2 Theory and Application of Chemical Bonds of Coordination Compounds
-10.3 Crystal Field Theory and Application of Coordination Compounds
-Chapter 10 text
-11.1 Overview of s-Block Elements
-11.2 s-Block Element Compounds
-Chapter 11 text
-Chapter 12 text
-12.2 Elements of the Boron Group: Their Hydrides, Oxides, and Halides
-12.3 Elements of the Carbon Group: Hydroxide of Tin and Lead
-12.5 Elements of the Carbon Group and Their Property
-12.6 Elements of the Carbon Group and Their Compounds
-Chapter 13 text
-13.1 Elements Overview of the Nitrogen Group
-13.2 Elements of the Nitrogen Group: Their Hydrides, Oxides, Nitrites and Salts
-13.3 Elements of the Oxygen Group: Oxidation Of O2, Structure and Strong Oxidation Of O3
-13.4 Elements of Sulfur Group and Their Oxygen-Containing Compounds
-Chapter 14 text
-14.1 Halogens: Acquirements of the Main Chemical Properties of Halogens
-14.2 Overview of d-Block Elements, and Chromium-Contained Compounds
-14.3. Manganese and its Compounds
