第1章　静力学基学
  §1-1　静力学中的基本概念
  §1-2　静力学公理
  §1-3　约束和约束力
  §1-4　研究对象和受力图
  习题
 第2章　平面学交力系
  §2-1　平面汇交力系合成与平衡的几何法
  §2-2　平面汇交力系合成与平衡的解析法
  习题
 第3章　力矩学平面力偶系
  §3-1　关于力矩的概念及其计算
  §3-2　关于力偶的概念
  §3-3　平面力偶系的合成与平衡
  习题
 第4章　平面一般力系
  §4-1　力线平移定理
  §4-2　平面一般力系向一点简化
  §4-3　分布荷载
  §4-4　平面一般力系的平衡条件
  §4-5　平面平行力系的平衡条件
  §4-6　滑动摩擦
  习题
 第5章　重心和形心
  §5-1　重心和形心的坐标公式
  §5-2　确定重心和形心位置的具体方法
  习题
 第6章　内力和内力学
  §6-1　平面桁架的内力
  §6-2　轴力及轴力图
  §6-3　扭矩和扭矩图
  §6-4　剪力和弯矩·剪力图和弯矩图
  习题
 第7章　拉伸和学学
  §7-1　横截面上的应力
  §7-2　拉压杆的强度计算
  §7-3　斜截面上的应力
  §7-4　拉（压）杆的变形与位移
  §7-5　拉（压）杆内的应变能
  §7-6　低碳钢和铸铁受拉伸和压缩时的力学性能
  §7-7　简单的拉、压超静定问题
  §7-8　拉（压）杆接头的计算
  习题
 第8章　扭学
  §8-1　薄壁圆筒扭转时的应力和变形
  §8-2　圆杆扭转时的应力和变形
  §8-3　强度条件及刚度条件
  §8-4　等直圆杆在扭转时的应变能
  §8-5　矩形截面杆的扭转
  习题
 第9章　学曲
  §9-1　剪力图和弯矩图的进一步研究
  §9-2　弯曲正应力
  §9-3　求惯性矩的平行移轴公式
  §9-4　弯曲切应力
  §9-5　梁的强度条件
  §9-6　挠度和转角
  §9-7　弯曲应变能
  §9-8　超静定梁
  习题
 第10章　学力学学分析和强度理学
  §10-1　概述
  §10-2　平面应力状态分析
  §10-3　平面应力状态下的胡克定律
  §10-4　三向应力状态
  §10-5　强度理论及其应用
  习题
 第11章　学杆的学定性
  §11-1　关于稳定性的概念
  §11-2　细长中心压杆的临界荷载
  §11-3　欧拉公式的适用范围·临界应力总图
  §11-4　压杆的稳定条件和稳定性校核
  习题
 第12章　学的学学
  §12-1　运动学的基本内容·参考系
  §12-2　点的运动的矢量表示法
  §12-3　点的运动的直角坐标表示法
  §12-4　点的运动的自然表示法（弧坐标表示法）
  习题
 第13章　学学的基本学学
  §13-1　刚体的移动
  §13-2　刚体的定轴转动
  §13-3　转动刚体上点的速度和加速度
  习题
 第14章　学的学合学学
  §14-1　绝对运动、相对运动和牵连运动
  §14-2　点的速度合成定理
  §14-3　牵连运动为移动时点的加速度合成定理
  习题
 第15章　学学的平面学学
  §15-1　刚体平面运动分解为移动和转动
  §15-2　平面图形上点的速度·速度瞬心
  §15-3　平面图形上点的加速度
  习题
 第16章　学学的学学微分方程
  §16-1　动力学的基本定律
  §16-2　质点的运动微分方程
  习题
 第17章　学力学普遍定理
  §17-1　动量定理
  §17-2　动量矩定理
  §17-3　动能定理
  §17-4　动力学普遍定理的综合应用
  习题
 第18章　学静法
  §18-1　关于惯性力的概念
  §18-2　质点的动静法
  §18-3　质点系的动静法
  §18-4　刚体惯性力系的简化
  习题
 附录Ⅰ　型钢表
 附录Ⅱ　简单荷载作用下梁的挠度和转角
 参考文献
 习题答案
 索引
 Synopsis
 Contents
 执笔者简介
 Contents
 Chapter1　Basis of Statics1
  §1-1　Basic Concepts in Statics1
  §1-2　Axioms in Statics
  §1-3　Constraints and Constraining Forces
  §1-4　Object of Study and Free-body Diagram
  Exercises
 Chapter2　Planar Concurrent Force System
  §2-1　Resultant and Equilibrium Condition of Planar Concurrent Force Systems：Geometrical Method
  §2-2　Resultant and Equilibrium Condition of Planar Concurrent Force Systems：Analytical Method
  Exercises
 Chapter3　Moment and Plane Couples
  §3-1　Concept and Calculation of the Moment
  §3-2　Concept of the Couple
  §3-3　Resultant and Equilibrium Condition of Planar Couple System
  Exercises
 Chapter4　General Planar Force System
  §4-1　Theorem of Translation of the Force
  §4-2　Reduction of Planar Force System to a Given Co-planar Point
  §4-3　Distributed Load
  §4-4　Equilibrium Condition of the General Planar Force System
  §4-5　Equilibrium Condition of the Parallel Forces
  §4-6　Sliding Friction
  Exercises
 Chapter5　Centre of Gravity and Centroid of an Area
  §5-1　Formula for Coordinate of Centre of Gravity and Centroid of an Area
  §5-2　Method to Find Centre of Gravity and Centroid of an Area
  Exercises
 Chapter6　Internal Forces and Their Diagrams
  §6-1　Internal Forces in Members of Plane Trusses
  §6-2　Axial Force and Its Diagram
  §6-3　Twisting Moment and Its Diagram
  §6-4　Shear Force and Bending Moment·Their Diagrams
  Exercises
 Chapter7　Tension and Compression
  §7-1　Stress on Cross Section
  §7-2　Calculation about Strength of Axially Loaded Bars
  §7-3　Stresses on Inclined Sections
  §7-4　Deformation and Displacement of Axially Loaded Bars
  §7-5　Strain Energy in Axially Loaded Bars
  §7-6　Mechanical Behaviour of Structural Steel and Cast Iron under Tension and Compression
  §7-7　Simple Statically Indeterminate Problems of Axially Loaded Bars
  §7-8　Analysis of Connections in Axially Loaded Bars
  Exercises
 Chapter8　Torsion
  §8-1　Stresses and Deformation of Thin-walled Tube under Torsion
  §8-2　Stresses and Deformation of Circular Bar under Torsion
  §8-3　Strength Condition and Stiffness Condition
  §8-4　Strain Energy in Circular Bar with Constant Cross-section under Torsion
  §8-5　Torsion of Rectangular Bar
  Exercises
 Chapter9　Bending
  §9-1　Further Investigation in Shearing Force and Bending Moment Diagrams
  §9-2　Normal Stresses under Bending
  §9-3　Parallel Axis Theorem for Moment of Inertia
  §9-4　Shearing Stresses under Bending
  §9-5　Strength Conditions of Beam
  §9-6　Deflection and Slope
  §9-7　Strain Energy due to Bending
  §9-8　Statically Indeterminate Beam
  Exercises
 Chapter10　Analysis of Stress·Theory of Strength
  §10-1　Introduction
  §10-2　Analysis of Plane Stress
  §10-3　Hook's Law for Plane Stress
  §10-4　Triaxial Stress
  §10-5　Theories of Strength and Their Application
  Exercises
 Chapter11　Stability of Column
  §11-1　Concepts of Stability of Column
  §11-2　Critical Load for Long Column
  §11-3　Scope of Application for Euler's Formula·Critical Stress Diagram
  §11-4　Stability Condition and Verification of Stability for Columns
  Exercises
 Chapter12　Kinematics of a Particle
  §12-1　Elementary Content of Kinematics·Reference Coordinates
  §12-2　The Vector Method in Kinematics of a Particle
  §12-3　The Rectangular Coordinating Method in Kinematics of a Particle
  §12-4　The Natural Coordinating Method in Kinematics of a Particle
  Exercises
 Chapter13　Simple Motion of Rigid Bodies
  §13-1　Translation of a Rigid Body
  §13-2　Rotation of a Rigid Body about a Fixed-axis
  §13-3　Velocity and Acceleration of the Points of a Rotating Rigid Body
  Exercises
 Chapter14　Composite Motion of a Particle
  §14-1　Absolute Motion·Relative Motion·Convected Motion
  §14-2　Theorem of Composition of the Velocities of a Particle
  §14-3　Theorem of Composition of the Accelerations of a Particle during the Convected Motion is Translation
  Exercises
 Chapter15　Plane Motion of a Rigid Body
  §15-1　Decomposition of the Plane Motion of a Rigid Body
  §15-2　Velocity of the Points on a Plane Figure·Instantaneous Center of Velocity
  §15-3　Acceleration of the Points on a Plane Figure
  Exercises
 Chapter16　Differential Equations of Motion of a Particle
  §16-1　Fundamental Laws of Dynamics
  §16-2　Differential Equations of Motion of a Particle
  Exercises
 Chapter17　General Theorems of Dynamics
  §17-1　Theorem of Linear Momentum
  §17-2　Theorem of Angular Momentum
  §17-3　Theorem of Kinetic Energy
  §17-4　Integrated Application of General Theorems of Dynamics
  Exercises
 Chapter18　Kineto-Static Method
  §18-1　Concepts of Inertia Force
  §18-2　Kineto-Static Method for a Particle
  §18-3　Kineto-Static Method for a Particle System
  §18-4　Reduction of Inertia Force System of a Rigid Body
  Exercises
 AppendixⅠ　Properties of Rolled-Steel Shapes
 AppendixⅡ　Beam Deflection and Slope by Simple Load
 References
 Key to Exercises
 Index
 Synopses
 Contents
 A Brief Introduction to the Writer