课程门户-章节详情

应叶

1 General information
- 1.1 Syllabus
- 1.2 Overview
  - 1.2.1 Learning objectives
  - 1.2.2 Learning contents
  - 1.2.3 Learning activities
  - 1.2.4 Schedule
    - 1.2.4.1 Online schedule
    - 1.2.4.2 Offline schedule
  - 1.2.5 Grading policy
  - 1.2.6 Office hour
- 1.3 Ap knowledge
- 1.4 Platform usage guideline and technical support
2 Nomenclature
- 2.1 Nomenclature
- 2.2 Inorganic compounds
- 2.3 Organic compounds
3 Atom
- 3.1 Basic Atomic Theory
- 3.2 Evolution of Atomic Theory
- 3.3 Atomic Structure and Symbolism
- 3.4 Isotopes
- 3.5 Early development of the periodic table of elements
- 3.6 Organization of the elements
4 Atoms: the quantum world
- 4.1 Wave Nature of Light
- 4.2 Quantized Energy and Photons
- 4.3 the Bohr Model
- 4.4 Wave Character of Matter
- 4.5 Atomic Orbitals
- 4.6 3D Representation of Orbitals
- 4.7 Many-Electron Atoms
- 4.8 Electron Configurations
5 Chemical Bonds
- 5.1 Prelude to Chemical Bonds
- 5.2 Lewis Electron Dot Diagrams
- 5.3 Ionic Bonds
- 5.4 Covalent Bonds
- 5.5 Other Aspects of Covalent Bonds
- 5.6 Violations of the Octet Rule
6 Molecular Shape and Structure
- 6.1 VSEPR theory
- 6.2 Hybridization
  - 6.2.1 sp3 hybridization
  - 6.2.2 sp2 hybridization
  - 6.2.3 sp hybridization
  - 6.2.4 Other hybridization
- 6.3 Multiple Bonds
- 6.4 Molecular Orbitals
- 6.5 Second-Row Diatomic Molecules
7 Properties of Gases
- 7.1 Property of Gases
- 7.2 新建课程目录
8 Fundamentals of Thermochemistry
- 8.1 Systems, States and Processes
- 8.2 Heat as a Mechanism to Transfer Energy
- 8.3 Work as a Mechanism to Transfer Energy
- 8.4 Heat Capacity and Calorimetry
- 8.5 The First Law of Thermodynamics
- 8.6 Heats of Reactions - ΔU and ΔH
- 8.7 Indirect Determination of ΔH - Hess's Law
- 8.8 Standard Enthalpies of Formation
9 Principles of Thermodynamics
- 9.1 The Nature of Spontaneous Processes
- 9.2 Entropy and Spontaneity - A Molecular Statistical Interpretation
- 9.3 Entropy Changes and Spontaneity
- 9.4 Entropy Changes in Reversible Processes
- 9.5 Quantum States, Microstates, and Energy Spreading
- 9.6 The Third Law of Thermodynamics
- 9.7 Gibbs Energy
10 Chemical equilibrium
- 10.1 Equilibrium
- 10.2 Reversible and irreversible reaction
- 10.3 Chemical equilirbium
- 10.4 Chemical equilibrium constant, Kc
- 10.5 Le Chatelier's principle
  - 10.5.1 Haber process
- 10.6 RICE table
  - 10.6.1 Calculating Equilibrium Constant Values
11 Acid–Base Equilibria
- 11.1 Classifications of Acids and Bases
- 11.2 Properties of Acids and Bases in Aqueous Solutions
- 11.3 Acid and Base Strength
- 11.4 Buffer Solutions
- 11.5 Acid-Base Titration Curves
- 11.6 Polyprotic Acids
- 11.7 Exact Treatment of Acid-Base Equilibria
- 11.8 Organic Acids and Bases
12 Kinetics
- 12.1 Prelude to Kinetics
- 12.2 Chemical Reaction Rates
- 12.3 Factors Affecting Reaction Rates
- 12.4 Rate Laws
- 12.5 Integrated Rate Laws
- 12.6 Collision Theory
- 12.7 Reaction Mechanisms
- 12.8 Catalysis

Platform usage guideline and technical support

Platform usage guideline and technical support

The network teaching platform of Shanghai Normal University provides online teaching services for all teachers and students, including online teaching (learning, q&A, homework, tests, etc.), fast class (micro video) recording, synchronous class, live teaching and related technical services, aiming to use computers, mobile phones, network and other existing equipment to carry out teaching activities. Shanghai normal university network teaching platform contains PC (http://shnu.fy.chaoxing.com) and mobile terminal (learning through APP) two parts, PC and mobile terminal can automatically realize resources, data, synchronization function, effectively guarantee the consistency of the teachers and students use habits. The online teaching platform of Shanghai Normal University has seamlessly connected with super Star e-books, electronic journals, academic videos and other platform resources, providing resources for teachers to prepare lessons and students to expand their learning.

图片预览