(3)Correspondence of the Course Aims to its Contents and the Graduation requirements Table 1:Correspondence of Aims to Contents and graduation requirements Course The corresponding course Graduation requirements Aims contents Chapter 1:Crystal Structure; the hn Chapter 3:Crystal Binding and Course Aim Elastic Con Graduation requirement 5: 1 Chapter 5:Phonon II.Thermal Properties Chapter 8:Semiconductor crystals Chapter 1:Crystal Structure: Chapter 2:Wave Diffraction and the Reciprocal Lattice. 2 Course Aim Chapter 3:Crystal Binding and 2 Elastic Constant Chapter 4:Phonon 1.Crystal Vibration; Chapter 7:Energy Bands Chapter 2:Wave Diffraction and the Reciprocal Lattice Chapter 5:Phonon II.Thermal Properties Course Aim 3 Chapter 6:Free Electron Ferm t 7:Be Gas and Chapter:Semiconductor crystals Graduation Chapter 9:Fermi Surfaces and Metals. (3) Correspondence of the Course Aims to its Contents and the Graduation requirements Table 1: Correspondence of Aims to Contents and graduation requirements Course Aims The corresponding course contents Graduation requirements Course Aim 1 Chapter 1: Crystal Structure; Chapter 3: Crystal Binding and Elastic Constant Chapter 5: Phonon II. Thermal Properties Chapter 8: Semiconductor crystals Graduation requirement 3: Be aware of the frontier and development trends of physics, the physical ideas in new technologies, and be familiar with the impact of new discoveries, theories and technologies in physics on society. Graduation requirement 5: Proficient in a foreign language (English), with reading, writing, and communication skills. Graduation requirement 8: Inspire a passion of independent and lifelong learning, be adaptable to new environment. Course Aim 2 Chapter 1: Crystal Structure; Chapter 2: Wave Diffraction and the Reciprocal Lattice; Chapter 3: Crystal Binding and Elastic Constant Chapter 4: Phonon 1. Crystal Vibration; Chapter 7: Energy Bands Graduation requirement 2: Master the basic physical and mathematic knowledge, experimental methods and skills related. Develop the ability to analyze and solve problems using physical theories and methods. Graduation requirement 8: Inspire a passion of independent and lifelong learning, be adaptable to new environment. Course Aim 3 Chapter 2: Wave Diffraction and the Reciprocal Lattice; Chapter 5: Phonon II. Thermal Properties Chapter 6: Free Electron Fermi Gas; Chapter 8: Semiconductor crystals Chapter 9: Fermi Surfaces and Metals. Graduation requirement 2: Master the basic physical and mathematic knowledge, experimental methods and skills related. Develop the ability to analyze and solve problems using physical theories and methods. Graduation requirement 7: Be able to carry out project research, design, data processing, and academic communication. Graduation requirement 8: Inspire a passion of independent and lifelong learning, be adaptable to new environment