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Engineering Mechanics Dynamics

ISBN-10: 0132911272

ISBN-13: 9780132911276

Edition: 13th 2013 (Revised)

Authors: Russell C. Hibbeler

List price: $210.00
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In his revision ofEngineering Mechanics, R.C. Hibbeler empowers students to succeed in the whole learning experience. Hibbeler achieves this by calling on his everyday classroom experience and his knowledge of how students learn inside and outside of lecture. This text is ideal for civil and mechanical engineering professionals.¿MasteringEngineering, the most technologically advanced online tutorial and homework system available, can be packaged with this edition.¿
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Book details

List price: $210.00
Edition: 13th
Copyright year: 2013
Publisher: Prentice Hall PTR
Publication date: 4/11/2012
Binding: Hardcover
Pages: 768
Size: 8.50" wide x 9.75" long x 1.00" tall
Weight: 3.168
Language: English

R.C. Hibbeler graduated from the University of Illinois at Urbana with a BS in Civil Engineering (major in Structures) and an MS in Nuclear Engineering. He obtained his PhD in Theoretical and Applied Mechanics from Northwestern University. Hibbelerrsquo;s professional experience includes postdoctoral work in reactor safety and analysis at Argonne National Laboratory, and structural work at Chicago Bridge and Iron, as well as Sargent and Lundy in Tucson. He has practiced engineering in Ohio, New York, and Louisiana. Hibbeler currently teaches at the University of Louisiana, Lafayette. In the past he has taught at the University of Illinois at Urbana, Youngstown State University, Illinois Institute of Technology, and Union College.

Kinematics of a Particle
Rectilinear Kinematics: Continuous Motion
Rectilinear Kinematics: Erratic Motion
General Curvilinear Motion
Curvilinear Motion: Rectangular Components
Motion of a Projectile
Curvilinear Motion: Normal and Tangential Components
Curvilinear Motion: Cylindrical Components
Absolute Dependent Motion Analysis of Two Particles
Relative-Motion of Two Particles Using Translating Axes
Kinetics of a Particle: Force and Acceleration
Newton�s Second Law of Motion
The Equation of Motion
Equation of Motion for a System of Particles
Equations of Motion: Rectangular Coordinates
Equations of Motion: Normal and Tangential Coordinates
Equations of Motion: Cylindrical Coordinates
Central-Force Motion and Space Mechanics
Kinetics of a Particle: Work and Energy
The Work of a Force
Principle of Work and Energy
Principle of Work and Energy for a System of Particles
Power and Efficiency
Conservative Forces and Potential Energy
Conservation of Energy
Kinetics of a Particle: Impulse and Momentum
Principle of Linear Impulse and Momentum
Principle of Linear Impulse and Momentum for a System of Particles
Conservation of Linear Momentum for a System of Particles
Angular Momentum
Relation Between Moment of a Force and Angular Momentum
Principle of Angular Impulse and Momentum
Steady Flow of a Fluid Stream
Propulsion with Variable Mass
Planar Kinematics of a Rigid Body
Planar Rigid-Body Motion
Rotation about a Fixed Axis
Absolute Motion Analysis
Relative-Motion Analysis: Velocity
Instantaneous Center of Zero Velocity
Relative-Motion Analysis: Acceleration
Relative-Motion Analysis using Rotating Axes
Planar Kinetics of a Rigid Body: Force and Acceleration
Mass Moment of Inertia
Planar Kinetic Equations of Motion
Equations of Motion: Translation
Equations of Motion: Rotation about a Fixed Axis
Equations of Motion: General Plane Motion
Planar Kinetics of a Rigid Body: Work and Energy
Kinetic Energy
The Work of a Force
The Work of a Couple Moment
Principle of Work and Energy
Conservation of Energy
Planar Kinetics of a Rigid Body: Impulse and Momentum
Linear and Angular Momentum
Principle of Impulse and Momentum
Conservation of Momentum
Eccentric Impact
Three-Dimensional Kinematics of a Rigid Body
Rotation About a Fixed Point
The Time Derivative of a Vector Measured from Either a Fixed or Translating-Rotating System
General Motion
Relative-Motion Analysis Using Translating and Rotating Axes
Three-Dimensional Kinetics of a Rigid Body
Moments and Products of Inertia
Angular Momentum
Kinetic Energy
Equations of Motion
Gyroscopic Motion
Torque-Free Motion
Undamped Free Vibration
Energy Methods
Undamped Forced Vibration
Viscous Damped Free Vibration
Viscous Damped Forced Vibration
Electrical Circuit Analogs
Mathematical Expressions
Vector Analysis
The Chain Rule
Fundamental Problems Partial
Solutions and Answers