Engineering Mechanics: Dynamics, 14th edition

  • Russell C. Hibbeler

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ISBN-13:  9780133976588

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Engineering Mechanics: Dynamics excels in providing a clear and thorough presentation of the theory and application of engineering mechanics. Engineering Mechanics empowers students to succeed by drawing upon Prof. Hibbeler’s everyday classroom experience and his knowledge of how students learn. The text is shaped by the comments and suggestions of hundreds of reviewers in the teaching profession, as well as many of the author’s students.


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0135845238/9780135845233 Engineering Mechanics: Dynamics, 14/e Plus Modified Mastering Engineering Revision with Pearson eText -- Access Card Package, 14/e

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Table of contents


12 Kinematics of a Particle

12.1 Introduction

12.2 Rectilinear Kinematics: Continuous Motion

12.3 Rectilinear Kinematics: Erratic Motion

12.4 General Curvilinear Motion

12.5 Curvilinear Motion: Rectangular Components

12.6 Motion of a Projectile

12.7 Curvilinear Motion: Normal and Tangential Components

12.8 Curvilinear Motion: Cylindrical Components

12.9 Absolute Dependent Motion Analysis of Two Particles

12.10 Relative-Motion of Two Particles Using Translating Axes

13 Kinetics of a Particle: Force and


13.1 Newton’s Second Law of Motion

13.2 The Equation of Motion

13.3 Equation of Motion for a System

of Particles

13.4 Equations of Motion: Rectangular Coordinates

13.5 Equations of Motion: Normal

and Tangential Coordinates

13.6 Equations of Motion: Cylindrical Coordinates

*13.7 Central-Force Motion and Space Mechanics

14 Kinetics of a Particle: Work and


14.1 The Work of a Force

14.2 Principle of Work and Energy

14.3 Principle of Work and Energy for a System of Particles

14.4 Power and Efficiency

14.5 Conservative Forces and Potential Energy

14.6 Conservation of Energy

15 Kinetics of a Particle: Impulse

and Momentum

15.1 Principle of Linear Impulse and Momentum

15.2 Principle of Linear Impulse and Momentum for a System of Particles

15.3 Conservation of Linear Momentum for a System of Particles

15.4 Impact

15.5 Angular Momentum

15.6 Relation Between Moment of a Force and Angular Momentum

15.7 Principle of Angular Impulse and Momentum

15.8 Steady Flow of a Fluid Stream

*15.9 Propulsion with Variable Mass

16 Planar Kinematics of a Rigid


16.1 Planar Rigid-Body Motion

16.2 Translation

16.3 Rotation about a Fixed Axis

16.4 Absolute Motion Analysis

16.5 Relative-Motion Analysis: Velocity

16.6 Instantaneous Center of Zero Velocity

16.7 Relative-Motion Analysis: Acceleration

16.8 Relative-Motion Analysis using Rotating Axes

17 Planar Kinetics of a Rigid Body:

Force and Acceleration

17.1 Mass Moment of Inertia

17.2 Planar Kinetic Equations of Motion

17.3 Equations of Motion: Translation

17.4 Equations of Motion: Rotation about a Fixed Axis

17.5 Equations of Motion: General Plane Motion

18 Planar Kinetics of a Rigid Body:

Work and Energy

18.1 Kinetic Energy

18.2 The Work of a Force

18.3 The Work of a Couple Moment

18.4 Principle of Work and Energy

18.5 Conservation of Energy

19 Planar Kinetics of a Rigid Body:

Impulse and Momentum

19.1 Linear and Angular Momentum

19.2 Principle of Impulse and Momentum

19.3 Conservation of Momentum

*19.4 Eccentric Impact

20 Three-Dimensional Kinematics of

a Rigid Body

20.1 Rotation About a Fixed Point

*20.2 The Time Derivative of a Vector Measured from Either a Fixed

or Translating-Rotating System

20.3 General Motion

*20.4 Relative-Motion Analysis Using Translating and Rotating Axes

21 Three-Dimensional Kinetics of a

Rigid Body

*21.1 Moments and Products of Inertia

21.2 Angular Momentum

21.3 Kinetic Energy

*21.4 Equations of Motion

*21.5 Gyroscopic Motion

21.6 Torque-Free Motion

22 Vibrations

*22.1 Undamped Free Vibration

*22.2 Energy Methods

*22.3 Undamped Forced Vibration

*22.4 Viscous Damped Free Vibration

*22.5 Viscous Damped Forced Vibration

*22.6 Electrical Circuit Analogs

A Mathematical Expressions

B Vector Analysis

C The Chain Rule

Fundamental Problems Partial

Solutions and Answers

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Published by Pearson (March 30th 2015) - Copyright © 2020