https://wwgy.lanzouo.com/iEiXD32t1cbe 密码:ed8j 1. Thermodynamics/热力学 1.1. Thermal Equilibrium and Temperature/热平衡和温度 1.2. Ideal Gas Equation/理想气体方程 1.2.1. State Quantites of Gas/气体的状态量 1.2.2. Ideal Gas Eqaution/理想气体方程 1.2.3. Ideal Gas Equation and Newton's Law/理想气体方程和牛顿定律 1.3. Kinetic Theory of Gas/气体动理论 1.3.1. Assumptions of the Classical Model of an Ideal Gas/理想气体模型的假设 1.3.2. Collision of Molecules/分子碰撞 1.3.3. Pressure and Molecular Speed/压强和分子速度 1.3.4. Using Kinetic Theory of Gas to Explain the Changes of Pressure/用气体动力论解释压强的变化 1.3.5. Average Kinetic Energy and Temperature/平均动能和温度 1.3.6. Average KE and the KE of Individual molecules/平均动能和单个分子的动能 1.3.7. RMS Speed/均方根速度 1.3.8. Distribution of Speeds/速率分布 1.3.9. Internal Energy/内能 1.4. Thermodynamics First Law/热力学第一定律 1.5. Thermodynamics Process/热力学过程 1.5.1. The General Analysis of Thermodynamics Process/热力学过程的一般性讨论 1.5.2. Isothermal Process/等温过程 1.5.3. Adiabatic Process/绝热过程 1.5.4. Isovolumetric/Isochoric Process/等体过程 1.5.5. Isobaric Process/等压过程 1.5.6. Comparison of Different Thermodynamic Process/不同热力学过程的比较 1.5.7. Combined Thermodynamic Processes/组合过程 1.5.8. Cycles/循环 1.6. Mechanism of Heat Transfer/传热机制 1.7. Thermodynamic Second Law and Entropy/热力学第二定律和熵 1.8. Free Response Questions of Thermodynamics/热学解答题示例和解析 1.9. Specific Heat Capacity/比热容 2. Electricity/电学 2.1. Charge and Law of Conservation of Charge/电荷和电荷守恒 2.2. Charging Methods/起电方法 2.2.1. Charing by Friction/摩擦起电 2.2.2. Charing by Conduction/传导起电 2.2.3. Charing by Induction/感应起电 2.2.4. The Attraction due to Induction/由于感应起电的吸引力 2.3. Coulomb's Law/库伦定律 2.3.1. Coulomb's Law/库伦定律 2.3.2. Superposition of Coulomb Forces/库仑力的叠加 2.3.3. Coulomb's Law and Dynamics/库伦定律和动力学 2.3.4. Coulomb's Law and Newton's Law of Gravitational Force/库伦定律和牛顿万有引力定律 2.4. Electric Field and Electric Field Strength/电场和电场强度 2.4.1. Definition and Physical Significance of Electric Field Strength/电场强度的定义和物理意义 2.4.2. Electric Field Strength of Point Charge/点电荷的电场强度 2.4.3. Superposition of Electric Field Strength/电场强度的叠加 2.4.4. Electric Field Lines and Field Vector Maps/电场线和电场矢量图 2.4.5. Force and Motion of Charged Particles in Uniform Electric Field/带电粒子在匀强电场中的受力和运动 2.5. Electric Potential Energy/电势能 2.5.1. The Feature of Work Done by Electic Force/电场力做功特征 2.5.2. Work Done by Electric Force and Work Kinetic Energy Principle/电场力做功和动能定理 2.5.3. Work Done by Electric Force and Electric Potential Energy/电场力做功和电势能 2.5.4. The Method to Calculate Electrical Potential Energy/计算电势能的方法 2.5.5. The Electrical Potential Energy in Uniform Electric Field/匀强电场中的电势能 2.5.6. The Electric Potential Energy Between Point Charges/点电荷之间的电势能 2.5.7. The Choice of System/系统的选择 2.5.8. Conservation of Mechanical Energy/机械能守恒 2.5.9. Work Done by External Force and Mechanical Energy/外力做功和机械能 2.5.10. Comprehensive Application | 综合应用 2.6. Electric Potential/电势 2.6.1. Definition and Physical Significance of Electrical Potential/电势的定义和物理意义 2.6.2. Electric Potential in Uniform Electric Field/匀强电场中的电势 2.6.3. Electrical Potential of a Point Charge/点电荷的电势 2.6.4. Superposition of Electric Potential/电势的叠加 2.6.5. Potential Difference and Work Done by Electric Force/电势差和电场力做功 2.6.6. Equipotential Surface or Isolines/等势面 2.7. The Relationship Between E-V and E-lines and Isolines/电场强度-电势的关系和电场线-等势面的关系 2.8. The Motion of Charged Particle in Non-uniform Electric Field/带电粒子在非匀强电场中的运动 2.9. Electric Field, and Electric Potential of Conductors/导体的电场和电势 2.9.1. The Electric Field of Conductors/导体的电场 2.9.2. The Electric Field of a Single Spherical Conductor and the Corresponding Graph/孤立导体球的电场及对应图像 2.9.3. Electrical Potential of a Single Spherical Conductor and the Corresponding Graph/孤立导体球的电势及对应图像 2.9.4. Electrical Potential of Conductors/导体的电势 2.10. Introduction of Insulator and Conductor in Electric Field/电场中的绝缘体和导体简介 2.10.1. Polarization/极化 2.10.2. The Attracting Effect due to Polarization/极化的吸引效应 2.10.3. Permittivity/介电常数 2.11. Capacitor and Capacitance/电容器和电容 2.11.1. Composition of Capacitor and Definition of Capacitance/电容器的构成和电容的定义 2.11.2. Determination Formula of Parallel Plate Capacitor/平行板电容器的决定式 2.11.3. The Energy Stored in Capacitor/电容器中存储的电势能 2.11.4. The Dynamic Analysis of Capacitor/电容的动态分析 2.12. Free Response Questions of Electricity/电学解答题示例和解析 3. Electric circuits/电路 3.1. Current/电流 3.2. Resistors and Resistance/电阻器和电阻 3.2.1. Definition of Resistance/电阻的定义 3.2.2. Determination Formula of Resistance/电阻的决定式 3.2.3. IV characteristic curve/伏安特性曲线 3.3. p.d and emf/电势差和电动势 3.4. Electrical Power and Joule's Law/电功率和焦耳定律 3.5. Ohm's Law of Partial Circuit/部分电路的欧姆定律 3.6. Kirchhoff's Law/基尔霍夫定律 3.6.1. Kirchhoff's Junction Law/基尔霍夫节点定律（也叫第一定律） 3.6.2. Kirchhoof's Loop Law/基尔霍夫环路定律（也叫第二定律） 3.6.3. The Equivalent Resistance/等效电阻问题 3.6.4. Ideal and Nonideal Electrical Element/理想和非理想电路元件 3.6.5. Comprehensive Application 1: Circuit with one battery/综合应用之单电源问题 3.6.6. Comprehensive Application 2: Circuit with multi-batteries/综合应用之多电源问题 3.6.7. Dynamic Analysis of Circuit/电路的动态分析 3.7. Ohm's Law of Closed Circuit/闭合电路欧姆定律 3.8. Circuits Containing Capacitors/含容电路 3.8.1. Equivalent Capacitance/等效电容 3.8.2. Distribution of V and Q in Series and Parallel Capacitor Circuits/电容串并联电路中的V与Q分配 3.8.3. RC circuit/RC电路 3.8.4. Time constant/时间常数 3.9. Free Response Questions of Electric Circuit/电路解答题示例和解析 4. Magnetism/磁场 4.1. Magnetic Field and Magnetic Field Lines/磁场和磁感线 4.1.1. Definition of Magnetic Field/磁场的定义 4.1.2. Magnetic Field Produced by Permanent Magnet/永磁铁产生的磁场 4.1.3. Magnetic Field Produced by Current-Carrying Wire/载流导线产生的磁场 4.2. Magnetis Force/磁场力 4.2.1. Magnetic Force on Current-Carrying Conductors/载流导线所受的磁场力 4.2.2. Magnetic Force Between Two Current-Carrying Wires/两根载流导线之间的磁场力 4.2.3. Magnetic Force on Moving Charge/运动电荷所受的磁场力 4.2.4. The Circular Motion of Charged particle in Uniform Magnetic Field/带电粒子在匀强磁场中的圆周运动 4.3. Application of Magnetism/磁的应用 4.3.1. Velocity Selector/速度选择器 4.3.2. Mass Spectrometer/质谱仪 4.3.3. Hall Effect/霍尔效应 4.3.4. Cyclotron/回旋加速器 4.4. Magneitc Material/磁性材料 4.5. Free Response Question of Magnetism/磁场解答题示例和解析 5. Electromagnetic induction/电磁感应 5.1. Electromagnetic Induction Phononenon/电磁感应现象 5.2. Magnetic Flux/磁通量 5.3. Faraday's Law of Electromagnetic Induction/法拉第电磁感应定律 5.4. Lenz's Law/楞次定律 5.5. Essence of Lenz's Law/楞次定律的本质 5.6. Comprehensive Application of Electromagnetism/电磁感应的综合应用 6. Geometric optics/几何光学 6.1. Reflection Law/反射定律 6.2. Refraction of Light/光的折射 6.2.1. Index of Refraction/折射率 6.2.2. Snell's law and Refraction Law/斯涅尔定律和折射定律 6.2.3. Total Internal Reflection/全反射 6.2.4. Dispersion/色散 6.3. Object-Image Formula/物象公式 6.3.1. Object-Image Formula and Sign Rule/物象公式和符号法则 6.3.2. Using Object-Image Formula for Mirrors/物象公式应用：面镜 6.3.3. Using Object-Image Formula for Lens/物象公式应用：透镜 6.4. Graphical Method for Mirrors and Lenses/面镜和透镜的图解法 7. Waves/波 7.1. Describing Waves/波的描述 7.1.1. Common Waves and Wave Pulses and the Formation/常见的波和波脉冲及其形成 7.1.2. Types of Waves/波的分类 7.1.3. Quantities to Describe Waves/描述波的物理量 7.1.4. Graphs and the Corresponding Equations to Desribe Waves/描述波的图像及其方程 7.2. Doppler Effect/多普勒效应 7.3. Boundary Behavior of Waves/波的边界 7.4. Polarization/偏振 7.5. Comparison Between Sound Wave and Electromagnetic Wave/声波和电磁波的对比 7.6. Principle of Superposition of Waves/波的叠加原理 7.7. Diffraction of Waves/波的衍射 7.8. Interference of Waves/波的干涉 7.9. Stationary Waves/驻波 7.9.1. The Formation of Stationary Wave/驻波的形成 7.9.2. Describing Stationary Wave/驻波的描述 7.9.3. Harmonic/谐波 7.10. Beat/拍频 8. Physical optics/物理光学 8.1. Single-Slit Diffraction of Light/光的单缝衍射 8.2. Double-Slit Interference/双缝干涉 8.3. Diffraction Grating/衍射光栅 8.4. Thin Film Interferenec/薄膜干涉 8.5. Polarization of Light/光的偏振 9. Quantum Physics/量子物理 9.1. Black Body Radiation/黑体辐射 9.2. The Photoelectric Effect/光电效应 9.3. Compton Scattering/康普顿散射 9.4. Wave-Particle Duality/波粒二象性 9.5. de Broglie Wavelength(Matter wave)/德布罗意波(物质波) 9.6. The Bohr Model of Atomic Structure/原子结构的玻尔模型 9.7. Emission and Absorption Spectra/发射谱和吸收谱 9.8. Using de Broglie Standing Wave Condition to Explain Bohr Model/用德布罗意驻波条件解释玻尔模型 9.9. Free Response Questions of This Chapter/本章解答题示例和解析 10. Nuclear Physics/原子核物理 10.1. Nuclear Structure/原子核结构 10.2. Strong Interaction/强相互作用 10.3. Mass-Energy Equivalence/质能等价 10.4. Nuclear Reaction/原子核反应 10.4.1. The Laws Obeyed by Nuclear Reaction/原子核反应要遵循的规律 10.4.2. Fusion and Fission/聚变和裂变 10.4.3. Radioactive Decay/放射性衰变 10.4.4. Exponential Decay/指数型衰变

AP物理2珍藏版大纲+课程手册（解密版PDF可复制内容）

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Thermodynamics/热力学
1.1. Thermal Equilibrium and Temperature/热平衡和温度
1.2. Ideal Gas Equation/理想气体方程
1.2.1. State Quantites of Gas/气体的状态量
1.2.2. Ideal Gas Eqaution/理想气体方程
1.2.3. Ideal Gas Equation and Newton's Law/理想气体方程和牛顿定律
1.3. Kinetic Theory of Gas/气体动理论
1.3.1. Assumptions of the Classical Model of an Ideal Gas/理想气体模型的假设
1.3.2. Collision of Molecules/分子碰撞
1.3.3. Pressure and Molecular Speed/压强和分子速度
1.3.4. Using Kinetic Theory of Gas to Explain the Changes of Pressure/用气体动力论解释压强的变化
1.3.5. Average Kinetic Energy and Temperature/平均动能和温度
1.3.6. Average KE and the KE of Individual molecules/平均动能和单个分子的动能
1.3.7. RMS Speed/均方根速度
1.3.8. Distribution of Speeds/速率分布
1.3.9. Internal Energy/内能
1.4. Thermodynamics First Law/热力学第一定律
1.5. Thermodynamics Process/热力学过程
1.5.1. The General Analysis of Thermodynamics Process/热力学过程的一般性讨论
1.5.2. Isothermal Process/等温过程
1.5.3. Adiabatic Process/绝热过程
1.5.4. Isovolumetric/Isochoric Process/等体过程
1.5.5. Isobaric Process/等压过程
1.5.6. Comparison of Different Thermodynamic Process/不同热力学过程的比较
1.5.7. Combined Thermodynamic Processes/组合过程
1.5.8. Cycles/循环
1.6. Mechanism of Heat Transfer/传热机制
1.7. Thermodynamic Second Law and Entropy/热力学第二定律和熵
1.8. Free Response Questions of Thermodynamics/热学解答题示例和解析
1.9. Specific Heat Capacity/比热容
Electricity/电学
2.1. Charge and Law of Conservation of Charge/电荷和电荷守恒
2.2. Charging Methods/起电方法
2.2.1. Charing by Friction/摩擦起电
2.2.2. Charing by Conduction/传导起电
2.2.3. Charing by Induction/感应起电
2.2.4. The Attraction due to Induction/由于感应起电的吸引力
2.3. Coulomb's Law/库伦定律
2.3.1. Coulomb's Law/库伦定律
2.3.2. Superposition of Coulomb Forces/库仑力的叠加
2.3.3. Coulomb's Law and Dynamics/库伦定律和动力学
2.3.4. Coulomb's Law and Newton's Law of Gravitational Force/库伦定律和牛顿万有引力定律
2.4. Electric Field and Electric Field Strength/电场和电场强度
2.4.1. Definition and Physical Significance of Electric Field Strength/电场强度的定义和物理意义
2.4.2. Electric Field Strength of Point Charge/点电荷的电场强度
2.4.3. Superposition of Electric Field Strength/电场强度的叠加
2.4.4. Electric Field Lines and Field Vector Maps/电场线和电场矢量图
2.4.5. Force and Motion of Charged Particles in Uniform Electric Field/带电粒子在匀强电场中的受力和运动
2.5. Electric Potential Energy/电势能
2.5.1. The Feature of Work Done by Electic Force/电场力做功特征
2.5.2. Work Done by Electric Force and Work Kinetic Energy Principle/电场力做功和动能定理
2.5.3. Work Done by Electric Force and Electric Potential Energy/电场力做功和电势能
2.5.4. The Method to Calculate Electrical Potential Energy/计算电势能的方法
2.5.5. The Electrical Potential Energy in Uniform Electric Field/匀强电场中的电势能
2.5.6. The Electric Potential Energy Between Point Charges/点电荷之间的电势能
2.5.7. The Choice of System/系统的选择
2.5.8. Conservation of Mechanical Energy/机械能守恒
2.5.9. Work Done by External Force and Mechanical Energy/外力做功和机械能
2.5.10. Comprehensive Application | 综合应用
2.6. Electric Potential/电势
2.6.1. Definition and Physical Significance of Electrical Potential/电势的定义和物理意义
2.6.2. Electric Potential in Uniform Electric Field/匀强电场中的电势
2.6.3. Electrical Potential of a Point Charge/点电荷的电势
2.6.4. Superposition of Electric Potential/电势的叠加
2.6.5. Potential Difference and Work Done by Electric Force/电势差和电场力做功
2.6.6. Equipotential Surface or Isolines/等势面
2.7. The Relationship Between E-V and E-lines and Isolines/电场强度-电势的关系和电场线-等势面的关系
2.8. The Motion of Charged Particle in Non-uniform Electric Field/带电粒子在非匀强电场中的运动
2.9. Electric Field, and Electric Potential of Conductors/导体的电场和电势
2.9.1. The Electric Field of Conductors/导体的电场
2.9.2. The Electric Field of a Single Spherical Conductor and the Corresponding Graph/孤立导体球的电场及对应图像
2.9.3. Electrical Potential of a Single Spherical Conductor and the Corresponding Graph/孤立导体球的电势及对应图像
2.9.4. Electrical Potential of Conductors/导体的电势
2.10. Introduction of Insulator and Conductor in Electric Field/电场中的绝缘体和导体简介
2.10.1. Polarization/极化
2.10.2. The Attracting Effect due to Polarization/极化的吸引效应
2.10.3. Permittivity/介电常数
2.11. Capacitor and Capacitance/电容器和电容
2.11.1. Composition of Capacitor and Definition of Capacitance/电容器的构成和电容的定义
2.11.2. Determination Formula of Parallel Plate Capacitor/平行板电容器的决定式
2.11.3. The Energy Stored in Capacitor/电容器中存储的电势能
2.11.4. The Dynamic Analysis of Capacitor/电容的动态分析
2.12. Free Response Questions of Electricity/电学解答题示例和解析
Electric circuits/电路
3.1. Current/电流
3.2. Resistors and Resistance/电阻器和电阻
3.2.1. Definition of Resistance/电阻的定义
3.2.2. Determination Formula of Resistance/电阻的决定式
3.2.3. IV characteristic curve/伏安特性曲线
3.3. p.d and emf/电势差和电动势
3.4. Electrical Power and Joule's Law/电功率和焦耳定律
3.5. Ohm's Law of Partial Circuit/部分电路的欧姆定律
3.6. Kirchhoff's Law/基尔霍夫定律
3.6.1. Kirchhoff's Junction Law/基尔霍夫节点定律（也叫第一定律）
3.6.2. Kirchhoof's Loop Law/基尔霍夫环路定律（也叫第二定律）
3.6.3. The Equivalent Resistance/等效电阻问题
3.6.4. Ideal and Nonideal Electrical Element/理想和非理想电路元件
3.6.5. Comprehensive Application 1: Circuit with one battery/综合应用之单电源问题
3.6.6. Comprehensive Application 2: Circuit with multi-batteries/综合应用之多电源问题
3.6.7. Dynamic Analysis of Circuit/电路的动态分析
3.7. Ohm's Law of Closed Circuit/闭合电路欧姆定律
3.8. Circuits Containing Capacitors/含容电路
3.8.1. Equivalent Capacitance/等效电容
3.8.2. Distribution of V and Q in Series and Parallel Capacitor Circuits/电容串并联电路中的V与Q分配
3.8.3. RC circuit/RC电路
3.8.4. Time constant/时间常数
3.9. Free Response Questions of Electric Circuit/电路解答题示例和解析
Magnetism/磁场
4.1. Magnetic Field and Magnetic Field Lines/磁场和磁感线
4.1.1. Definition of Magnetic Field/磁场的定义
4.1.2. Magnetic Field Produced by Permanent Magnet/永磁铁产生的磁场
4.1.3. Magnetic Field Produced by Current-Carrying Wire/载流导线产生的磁场
4.2. Magnetis Force/磁场力
4.2.1. Magnetic Force on Current-Carrying Conductors/载流导线所受的磁场力
4.2.2. Magnetic Force Between Two Current-Carrying Wires/两根载流导线之间的磁场力
4.2.3. Magnetic Force on Moving Charge/运动电荷所受的磁场力
4.2.4. The Circular Motion of Charged particle in Uniform Magnetic Field/带电粒子在匀强磁场中的圆周运动
4.3. Application of Magnetism/磁的应用
4.3.1. Velocity Selector/速度选择器
4.3.2. Mass Spectrometer/质谱仪
4.3.3. Hall Effect/霍尔效应
4.3.4. Cyclotron/回旋加速器
4.4. Magneitc Material/磁性材料
4.5. Free Response Question of Magnetism/磁场解答题示例和解析
Electromagnetic induction/电磁感应
5.1. Electromagnetic Induction Phononenon/电磁感应现象
5.2. Magnetic Flux/磁通量
5.3. Faraday's Law of Electromagnetic Induction/法拉第电磁感应定律
5.4. Lenz's Law/楞次定律
5.5. Essence of Lenz's Law/楞次定律的本质
5.6. Comprehensive Application of Electromagnetism/电磁感应的综合应用
Geometric optics/几何光学
6.1. Reflection Law/反射定律
6.2. Refraction of Light/光的折射
6.2.1. Index of Refraction/折射率
6.2.2. Snell's law and Refraction Law/斯涅尔定律和折射定律
6.2.3. Total Internal Reflection/全反射
6.2.4. Dispersion/色散
6.3. Object-Image Formula/物象公式
6.3.1. Object-Image Formula and Sign Rule/物象公式和符号法则
6.3.2. Using Object-Image Formula for Mirrors/物象公式应用：面镜
6.3.3. Using Object-Image Formula for Lens/物象公式应用：透镜
6.4. Graphical Method for Mirrors and Lenses/面镜和透镜的图解法
Waves/波
7.1. Describing Waves/波的描述
7.1.1. Common Waves and Wave Pulses and the Formation/常见的波和波脉冲及其形成
7.1.2. Types of Waves/波的分类
7.1.3. Quantities to Describe Waves/描述波的物理量
7.1.4. Graphs and the Corresponding Equations to Desribe Waves/描述波的图像及其方程
7.2. Doppler Effect/多普勒效应
7.3. Boundary Behavior of Waves/波的边界
7.4. Polarization/偏振
7.5. Comparison Between Sound Wave and Electromagnetic Wave/声波和电磁波的对比
7.6. Principle of Superposition of Waves/波的叠加原理
7.7. Diffraction of Waves/波的衍射
7.8. Interference of Waves/波的干涉
7.9. Stationary Waves/驻波
7.9.1. The Formation of Stationary Wave/驻波的形成
7.9.2. Describing Stationary Wave/驻波的描述
7.9.3. Harmonic/谐波
7.10. Beat/拍频
Physical optics/物理光学
8.1. Single-Slit Diffraction of Light/光的单缝衍射
8.2. Double-Slit Interference/双缝干涉
8.3. Diffraction Grating/衍射光栅
8.4. Thin Film Interferenec/薄膜干涉
8.5. Polarization of Light/光的偏振
Quantum Physics/量子物理
9.1. Black Body Radiation/黑体辐射
9.2. The Photoelectric Effect/光电效应
9.3. Compton Scattering/康普顿散射
9.4. Wave-Particle Duality/波粒二象性
9.5. de Broglie Wavelength(Matter wave)/德布罗意波(物质波)
9.6. The Bohr Model of Atomic Structure/原子结构的玻尔模型
9.7. Emission and Absorption Spectra/发射谱和吸收谱
9.8. Using de Broglie Standing Wave Condition to Explain Bohr Model/用德布罗意驻波条件解释玻尔模型
9.9. Free Response Questions of This Chapter/本章解答题示例和解析
Nuclear Physics/原子核物理
10.1. Nuclear Structure/原子核结构
10.2. Strong Interaction/强相互作用
10.3. Mass-Energy Equivalence/质能等价
10.4. Nuclear Reaction/原子核反应
10.4.1. The Laws Obeyed by Nuclear Reaction/原子核反应要遵循的规律
10.4.2. Fusion and Fission/聚变和裂变
10.4.3. Radioactive Decay/放射性衰变
10.4.4. Exponential Decay/指数型衰变