1-1 Introduction 1-2 Fluid Particle and Continuous Medium Hypothesis 1-3 Density, Specific Volume and Relative Density of Fluid 1-4 Compressibility and Expansion of a Fluid 1-5 Fluid Viscosity 1-6 Forces acting on a Fluid Exercises of Chapter 1
§9-1 Conductors Elecrostatic Induction 静电场中的导体 静电感应 §9-3 Dielectrics 电介质的极化 §9-4 Gauss’ Law in Dielectric 电介质中的电场 Electric Displacement 有电介质时的高斯定理 电位移 §9-5 Energy in Electric Field 电场的能量 §9-2 Capacitance 电容器 电容器的并联和串联
11-1 Classifications of Magnetic Media Magnetic Permeability 磁介质的分类磁导率 11-2 Molecular Theory of Paramagnetism& Diamagnetism顺磁质和抗磁质磁化的分子理论 11-3 Ampere's Law in the magnetic matter and magnetic intensity H 磁介质中的安培环路定理和磁场强度H 11-4 Ferromagnetism铁磁质
11-1 Classifications of Magnetic Media Magnetic Permeability磁介质的分类磁导率 11-2 Molecular Theory of Paramagnetism& Diamagnetism顺磁质和抗磁质磁化的分子理论 11-3 Ampere's Law in the magnetic matter and magnetic intensity H磁介质中的安培环路定理和磁场强度H 11-4 Ferromagnetism铁磁质
14-1 Simple Harmonic Motion (SHM)简谐振动 14-2 Amplitude Period Frequency phase简谐振动的振幅,周期,頻率和位相 14-3 The Energy of SHM简谐振动的能量 14-4 Damped Vibration& Forced Vibration Resonance阻尼振动受迫振动共振 14-5 Superposition of two SHM with same Frequency in same Direction同方向同頻率的简谐振动的合成 14-6 Superposition of two Perpendicular SHM相互垂直的简谐振动的合成