000 04761cam a2200337 a 4500
003 OSt
005 20240130125009.0
008 081222s2010 nyua 001 0 eng
020 _a9780073134123 (hard copy : alk. paper)
020 _a0073134120 (hard copy : alk. paper)
020 _a9780077302009 (set)
020 _a0077302001 (set)
020 _a9780077302009
020 _a9780073134123
040 _aBUL
_cBUL
_dBUL
_dBUL
_dBUL
_bENG
_eRDA
082 0 0 _a620.1
_222
_bCOS
100 1 _aCostanzo, Francesco,
245 1 0 _aEngineering mechanics :
_bStatics & dynamics /
_cFrancesco Costanzo, Michael E. Plesha, Gary L. Gray.
260 _aNew York :
_bMcGraw-Hill Higher Education,
_cc2010.
300 _axxx, 768 p. :
_bill. (some col.) ;
_c27 cm.
500 _aSTATIC TABLE OF CONTENTS Part 1 1 INTRODUCTION 1.1 Engineering and Statics 1.2 A Brief History of Statics 1.3 Fundamental Principles 1.4 Force 1.5 Units and Unit Conversions, etc. 2 VECTORS: FORCE AND POSITION 2.1 Basic Concepts 2.2 Cartesian Representation of Vectors in Two Dimensions 2.3 Cartesian Representation of Vectors in Three Dimension 2.4 Vector Dot Product 2.5 Vector Cross Product, etc 3 EQUILIBRIUM OF PARTICLES 3.1 Equilibrium of Particles in Two Dimension 3.2 Behavior of Cables, Bars and Springs 3.3 Equilibrium of Particles in Three Dimension 3.4 Engineering Design 3.5 Chapter Review, etc. 4 MOMENT OF A FORCE AND EQUIVALENT FORCE SYSTEMS 4.1 Moment of a Force 4.2 Moment of a Force A Bout a Line 4.3 Moment of a Couple 4.4 Equivalent Force Systems 4.5 Chapter Review, etc. 5 EQUILIBRIUM OF BODIES 5.1 Equations of Equilibrium 5.2 Equilibrium of Rigid Bodies in Two Dimensions 5.3 Equilibrium of Bodies in Two Dimensions-Additional Topics 5.4 Equilibrium of Bodies in Three 5.5 Engineering Design, etc. 6 STRUCTURAL ANALYSIS AND MACHINES 6.1 Truss Structures and the Methods of Joints 6.2 Truss Structures and the Method of Sections 6.3 Trusses in Three Dimensions 6.4 Frames and Machines 7 CENTROIDS AND DISTRIBUTED FORCE SYSTEMS 7.1 Centroid 7.2 Center of Mass and Center of Gravity 7.3 Theorems of Pappus and Guldinus 7.4 Distributed Forces, Fluid and Gas Pressure 8 INTERNAL FORCES 8.1 Internal Forces in Structural Members 8.2 Internal Forces in Straight Beams 8.3 Relations Among Shear, Moment, and Distributed Force 9 FRICTION 9.1 Basic Concepts 9.2 Problems with Multiple Contact Surface 9.3 Belts and Cables Contacting Cylindrical Surface 10 MOMENTS OF INERTIA 10.1 Area Moments of Inertia 10.2 Parallel Axis Theorem 10.3 Mass Moments of Inertia 10.4 Chapter Review Index..............587 Part 2 DYNAMIC TABLE OF CONTENTS 1 SETTING THE STAGE FOR THE STUDY OF DYNAMICS 1.1 A Brief History of Dynamics 1.2 Fundamental Concepts 1.3 Dynamics and Engineering Design 2 PARTICLE KINEMATICS 2.1 Position, Velocity, Acceleration, and Cartesian, Coordinates 2.2 Elementary Motions 2.3 Projectile Motion 2.4 The Time Derivative of a Vector 2.5 Planer Motion: Normal-Tangential, etc. 3 FORCE AND ACCELERATION METHODS FOR PARTICLES 3.1 Rectilinear Motion 3.2 Curvilinear Motion 3.3 Systems of Particles 4 ENERGY METHODS FOR PARTICLES 4.1 Work- Energy Principle for a Particle 4.2 Conservative Forces and Potential Energy 4.3 Work-Energy Principle for Systems of Particle 4.4 Power and Efficiency 5 MOMENTUM METHODS FOR PARTICLES 5.1 Momentum and Impulse 5.2 Impact 5.3 Angular Momentum 5.4 Orbital Mechanics 6 PLANER RIGID BODY KINEMATICS 6.1 Fundamental Equations, Translation, and Rotation A bout a Fixed Axis 6.2 Planer Motion: Velocity Analysis 6.3 Planer Motion; Acceleration Analysis 6.4 Rotating Reference Frames 7 NEWTON-EULER EQUATIONS FOR PLANER RIGID BODY MOTION 7.1 Bodies Symmetric with respect to the Plane of Motion 8 ENERGY AND MOMENTUM METHODS FOR RIGID BODIES 8.1 Work-Energy Principle for rigid Bodies 8.2 Momentum Methods for Rigid Bodies 8.3 Impact of Rigid Bodies 9 MECHANICAL VIBRATIONS 9.1 Undamped free Vibration 9.2 Undamped Forced Vibration 9.3 Viciously Damped Vibration 9.4 Chapter Review Index...............751
504 _aIncludes Index: p. 751-762
650 0 _a Mechanics
650 0 _aEngineering
650 0 _aStatics
650 0 _aDynamics
700 1 _aPlesha, Michael E.
700 1 _aGray, Gary L.
942 _2ddc
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_h620.1
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999 _c1473
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