Engineering Mechanics [E-Book]
Saved in:
Full text |
|
Personal Name(s): | YI, Ping, author |
Liu, Jun. / Jiang, Feng. | |
Edition: |
1st edition |
Imprint: |
Les Ulis :
EDP Sciences,
2022
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Physical Description: |
1 online resource (476 pages) |
Note: |
englisch |
ISBN: |
9782759829026 |
Series Title: |
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Current Natural Sciences Series
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- Intro
- Engineering Mechanics
- Foreword
- Contents
- Introduction
- Mechanics
- Fundamental Concepts and Principles
- Fundamental Concepts
- Newton's Laws of Motion
- Newton's Law of Gravitational Attraction
- Units of Measurement
- Procedure of Problem Solving
- Vectors and Vector Operations
- Vectors and the Parallelogram Law
- Cartesian Vectors
- Cartesian Vector Representation
- Addition and Subtraction of Cartesian Vectors
- Vector Directed Along a Line
- Dot Product and Cross Product
- Cartesian Vector Formulation of the Dot Product
- Applications of the Dot Product
- Cartesian Vector Formulation of the Cross Product
- Simplification of Force Systems
- Moment of a Force about a Point
- Vector Formulation
- Principle of Moments
- Scalar Formulation
- Moment of a Force about a Specified Axis
- Moment of a Couple
- Vector Formulation
- Scalar Formulation
- Simplification of a System of Forces and Couples
- Equivalent System
- Reduction to One Force and One Couple
- Further Simplification
- Application of Simplification of Parallel Forces
- Center of Gravity, Center of Mass, and Centroid of a Body
- Center of Gravity, Center of Mass, and Centroid of Composite Bodies
- Reduction in Distributed Loading
- Equilibrium of Rigid Bodies
- Conditions for Rigid-Body Equilibrium
- Free-Body Diagrams
- Support Reactions
- Procedure of Drawing a Free-Body Diagram
- Equilibrium Problems of a Rigid Body
- Two- and Three-Force Members
- Constrains and Statical Determinacy
- Equilibrium Problems of Structures
- Simple Trusses
- The Method of Joints
- Zero-Force Members
- The Method of Sections
- Friction
- Characteristics of Friction
- Laws of Sliding Friction
- Angles of Friction and Self-Locking
- Problems Involving Sliding Friction
- Rolling Resistance
- Kinematics of Particles.
- General Curvilinear Motion
- Curvilinear Motion: Rectangular Components
- Curvilinear Motion: Tangential and Normal Components
- The t-n-b Coordinate System
- Velocity
- Acceleration
- Absolute Dependent Motion Analysis of Particles
- Relative-Motion Analysis Using Translating Axes
- Planar Kinematics of Rigid Bodies
- Translation
- Rotation about a Fixed Axis
- Angular Motion
- Motion of a Particle on a Rotating Body
- Absolute Dependent Motion Analysis of Bodies
- General Plane Motion
- Relative-Motion Analysis: Velocity and Acceleration
- Instantaneous Center of Rotation
- Kinetics: Equations of Motion
- Newton's Second Law of Motion
- Equation of Motion for a Particle
- Equation of Motion for a System of Particles
- Mass Moment of Inertia
- Parallel-Axis Theorem and Radius of Gyration
- Mass Moment of Inertia of Composite Bodies
- Planar Kinetic Equations of Motion
- Equations of Motion for Translation
- Equations of Motion for Rotation about a Fixed Axis
- Equations of Motion for General Plane Motion
- Kinetics: Work and Energy
- Work and Power
- Work
- Power
- Kinetic Energy
- Kinetic Energy of a Particle
- Kinetic Energy of a System of Particles
- Kinetic Energy of a Rigid Body in Planar Motion
- Principle of Work and Energy
- Principle of Work and Energy for a Particle
- Principle of Work and Energy for a System of Particles
- Conservative Forces and Conservation of Energy
- Conservative Forces
- Potential Energy
- Principle of Conservation of Energy
- Kinetics: Impulse and Momentum
- Principle of Linear Impulse and Momentum for a Particle
- Linear Momentum and Linear Impulse
- Principle of Linear Impulse and Momentum
- Principle of Angular Impulse and Momentum for a Particle
- Angular Momentum
- Principle of Angular Impulse and Momentum.
- Principle of Impulse and Momentum for a System of Particles
- Linear Momentum of a System of Particles
- Angular Momentum of a System of Particles
- Angular Momentum of Rigid Bodies in Planar Motion
- Principle of Impulse and Momentum for Rigid Bodies in Planar Motion
- Principle of Conservation of Momentum
- Answers
- References.