理论力学

理论力学
作 者: 栾锡富 张涛 赵春香
出版社: 哈尔滨工业大学出版社
丛编项:
版权说明: 本书为出版图书,暂不支持在线阅读,请支持正版图书
标 签: 力学
ISBN 出版时间 包装 开本 页数 字数
未知 暂无 暂无 未知 0 暂无

作者简介

暂缺《理论力学》作者简介

内容简介

This book is based on the basic teaching requirement for the course of theoretical mechanics in advanced industrial colleges in the People's Republic of China. The book includes 16 chapters: principles of statics and the free-body diagrams, basic operations with force systems, reductions and resultants of force systems, equilibrium of coplanar force systems, equilibrium of noncoplanar force systems, friction, kinematics of a point, translation and rotation of rigid bodies, composite motion of a point, plane motion of rigid bodies, kinetics of a particle, principle of linear impulse and momentum, principle of angular impulse and momentum, principle of work and kinetic .energy, D' Alembert' s principle, and principle of virtual displacements. This book can be used as a bilingual teaching textbook of the course of theoretical mechanics for undergraduates in advanced engineering universities. It can also be used as a reference for related teachers, students, and engineering technicians.

图书目录

Part 1 Statics

Introduction

 Chapter 1 Principles of Statics and the Free-Body Diagrams

  1.1 Fundamental Concepts of Statics

  1.2 Principles of Statics

  1.3 Reactions of Supports

  1.4 Free-Body Diagram of a Body

  Problems

 Chapter 2 Basic Operations with Force Systems

  2.1 Reduction of C(mcunent Force Systems

  2.2 Mommt of a Force about a Point

  2.3 Moment of a Force about an Axis

  2.4 Couples

 Chapter 3 Reductions and Resultants of Foree Systerm

  3.1 Changing the Line of Action of a Force

  3.2 Redudicm of a Force System

  3.3 Resultants of Force Systems

  Problems

 Chapter 4 Equilibrium of Coplanar Force Systems

  4.1 Coplanar Equilibrium Equations

  4.2 Equilibrium of Composite Bodies

  4.3 Simple Plane Tresses

  Problems

 Chapter 5 Equilibrium of Noncoplanar Force Systems

  5.1 Supports for Noncoplanar Loads

  5.2 Noncoplanar Equilibrium Equations

  5.3 Center of Gravity and Centroid

  Problems

 Chapter 6 Friction

  6.1 Dry Friction

  6.2 Theory of Dry Friction

  6.3 Equilibrium Problem Involving Friction

  6.4 Angle of Friction and Phenomena of Serf-Locking

  6.5 Rolling Resistance

  Problems

Part 2 Kinematics

 Introduction

 Chapter 7 Kinematies of a Point

  7.1 Position, Velocity, and Acceleration

  7.2 Method of Rectangular Coordinates

  7.3 Method of Normal and Tangential Coordinates

  Problems

 Chapter 8 Translation and Rotation of Rigid Bodies

  8.1 Translation of a Rigid Body

  8.2 Rotation of a Rigid Body about a Fixed Axis

  Problems

 Chapter 9 Composite Motion of a Point

  9.1 Concepts of Composite Motion of a Point

  9.2 Comosition of Velocities of a Point

  9.3 Composition of Accelerations of a Point

  Problems

 Chapter 10 Plane Motion of Rigid Bodies

  10.1 Analysis of Plane Motion

  10.2 Velocities of any Point in a Rigid Body

  10.3 Instantaneous Center for Velocities

  10.4 Accelerations of any Point in a Rigid Body

  Problems

Part 3 Kinetics

 Introduction

 Chapter 11 Kinetics of a Particle

  11.1 Newton's Laws of Motion

  11.2 Differential Equations of Motion of a Particle

  Problems

 Chapter 12 Principle of Line Impulse and Momentum

 Chapter 13 Princinle of Anguaar Imputse and Momentmn

 Chapter 14 Principle of Work and Kinetic Energy

 Chapter 15 D'Alembert's Principle

 Chapter 16 Principle of Virtual Displacements

Answers to Problems

Reference