1.1 The failures of classical physics 1.2 The characteristic of the motion of microscopic particles 1.3 The basic assumptions (postulates) of quantum mechanics 1.4 Solution of free particle in a box - a simple application of Quantum Mechanics

同济大学：《高等混凝土结构理论》课程电子教案（PPT课件）Chapter 5 Shearing Behavior of Reinforced Concrete Structural Members

四川大学：机械工程系课程教学资源《机械方案优化及结构创意实践》教学大纲 Practice of Mechanical Scheme and Optimization Structural Originality Desig（二）

Future：How to Build a Practical P2P system Status： From Academy to Industry History：Structural evolution Concept：Advantages: Why and What

 Agile Design  design principles  Design Patterns  Why, What, How  Creational, Structural and Behavioral Patterns

8.1 The metallic bond and the general properties of metals 8.2 Close packing of spheres and the structure of pure metals 8.3 The structures and properties of alloys

§5.1 Theory of hybrid orbital and atomic orbital hybridization §5.2 Valence Shell Electron-Pair Repulsion (VSEPR) Model §5.3 Hückel molecular orbital theory and conjugated system §5.4 Delocalized molecular orbital theory §5 The symmetry of molecular orbital and symmetry rules for molecular reactions

§1 Treatment of variation method for the H2+ ion §2 Molecular orbital theory and diatomic molecules §3 Valence bond(VB) theory for the hydrogen molecule and the comparison VB theory with Molecular Orbital theory(MO)

2.1 The Schrödinger equation and its solution for one-electron atoms 2.2 The physical significance of quantum number 2.3 The wave-function and electron cloud 2.4 The structure of many￾electron atoms (multi-electron atoms) 2.5 Atomic spectra and spectral term

§14-1 动力计算的特点和动力自由度 §14-2 单自由度体系的自由振动 §14-3 单自由度体系的受迫振动 §14-4 两个自由度体系的自由振动 §14-5 两个自由度体系在简谐荷载下的受迫振动