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Vector Mechanics for Engineers: Statics and Dynamics

Vector Mechanics for Engineers: Statics and Dynamics 12th Edition

By: Ferdinand Beer
ISBN-10: 125963809X
/ ISBN-13: 9781259977251
Edition: 12th Edition
Language: English
				
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Vector Mechanics For Engineers: Statics and Dynamics

  • 1 Introduction
  • 1.1 What is Mechanics?
  • 1.2 Fundamental Concepts and Principles
  • 1.3 Systems of Units
  • 1.4 Converting between Two Systems of Units
  • 1.5 Method of Solving Problems
  • 1.6 Numerical Accuracy
  • 2 Statics of Particles
  • 2.1 Addition of Planar Forces
  • 2.2 Adding Forces by Components
  • 2.3 Forces and Equilibrium in a Plane
  • 2.4 Adding Forces in Space
  • 2.5 Forces and Equilibrium in Space
  • Review and Summary
  • Review Problems
  • 3 Rigid Bodies: Equivalent Systems of Forces
  • 3.1 Forces and Moments
  • 3.2 Moment of a Force about an Axis
  • 3.3 Couples and Force-Couple Systems
  • 3.4 Simplifying Systems of Forces
  • Review and Summary
  • Review Problems
  • 4 Equilibrium of Rigid Bodies
  • 4.1 Equilibrium in Two Dimensions
  • 4.2 Two Special Cases
  • 4.3 Equilibrium in Three Dimensions
  • Review and Summary
  • Review Problems
  • 5 Distributed Forces: Centroids and Centers of Gravity
  • 5.1 Planar Centers of Gravity and Centroids
  • 5.2 Further Considerations of Centroids
  • 5.3 Additional Applications of Centroids
  • 5.4 Centers of Gravity and Centroids of Volumes
  • Review and Summary
  • Review Problems
  • 6 Analysis of Structures
  • 6.1 Analysis of Trusses
  • 6.2 Other Truss Analyses
  • 6.3 Frames
  • 6.4 Machines
  • Review and Summary
  • Review Problems
  • 7 Internal Forces and Moments
  • 7.1 Internal Forces in Members
  • 7.2 Beams
  • 7.3 Relations Among Load, Shear, and Bending Moment
  • *7.4 Cables
  • *7.5 Catenary Cables
  • Review and Summary
  • Review Problems
  • 8 Friction
  • 8.1 The Laws of Dry Friction
  • 8.2 Wedges and Screws
  • *8.3 Friction on Axles, Disks, and Wheels
  • 8.4 Belt Friction
  • Review and Summary
  • Review Problems
  • 9 Distributed Forces: Moments of Inertia
  • 9.1 Moments of Inertia of Areas
  • 9.2 Parallel-Axis Theorem and Composite Areas
  • *9.3 Transformation of Moments of Inertia
  • *9.4 Mohr’s Circle for Moments of Inertia
  • 9.5 Mass Moments of Inertia
  • *9.6 Additional Concepts of Mass Moments of Inertia
  • Review and Summary
  • Review Problems
  • 10 Method of Virtual Work
  • *10.1 The Basic Method
  • *10.2 Work, Potential Energy, and Stability
  • Review and Summary
  • Review Problems
  • 11 Kinematics of Particles
  • 11.1 Rectilinear Motion of Particles
  • 11.2 Special Cases and Relative Motion
  • *11.3 Graphical Solutions
  • 11.4 Curvilinear Motion of Particles
  • 11.5 Non-Rectangular Components
  • Review and Summary
  • Review Problems
  • 12 Kinetics of Particles: Newton’s Second Law
  • 12.1 Newton’s Second Law and Linear Momentum
  • 12.2 Angular Momentum and Orbital Motion
  • *12.3 Applications of Central-Force Motion
  • Review and Summary
  • Review Problems
  • 13 Kinetics of Particles: Energy and Momentum Methods
  • 13.1 Work and Energy
  • 13.2 Conservation of Energy
  • 13.3 Impulse and Momentum
  • 13.4 Impacts
  • Review and Summary
  • Review Problems
  • 14 Systems of Particles
  • 14.1 Applying Newton’s Second Law and Momentum Principles to Systems of Particles
  • 14.2 Energy and Momentum Methods for a System of Particles
  • *14.3 Variable Systems of Particles
  • Review and Summary
  • Review Problems
  • 15 Kinematics of Rigid Bodies
  • 15.1 Translation and Fixed-Axis Rotation
  • 15.2 General Plane Motion: Velocity
  • 15.3 Instantaneous Center of Rotation
  • 15.4 General Plane Motion: Acceleration
  • 15.5 Analyzing Motion with Respect to a Rotating Frame
  • *15.6 Motion of a Rigid Body in Space
  • *15.7 Motion Relative to a Moving Reference Frame
  • Review and Summary
  • Review Problems
  • 16 Plane Motion of Rigid Bodies: Forces and Accelerations
  • 16.1 Kinetics of a Rigid Body
  • 16.2 Constrained Plane Motion
  • Review and Summary
  • Review Problems
  • 17 Plane Motion of Rigid Bodies: Energy and Momentum Methods
  • 17.1 Energy Methods for a Rigid Body
  • 17.2 Momentum Methods for a Rigid Body
  • 17.3 Eccentric Impact
  • Review and Summary
  • Review Problems
  • 18 Kinetics of Rigid Bodies in Three Dimensions
  • 18.1 Energy and Momentum of a Rigid Body
  • *18.2 Motion of a Rigid Body in Three Dimensions
  • *18.3 Motion of a Gyroscope
  • Review and Summary
  • Review Problems
  • 19 Mechanical Vibrations
  • 19.1 Vibrations without Damping
  • 19.2 Free Vibrations of Rigid Bodies
  • 19.3 Applying the Principle of Conservation of Energy
  • 19.4 Forced Vibrations
  • 19.5 Damped Vibrations
  • Review and Summary
  • Review Problems
  • Appendix: Fundamentals of Engineering Examination
  • Answers to Problems
  • Index
  • Properties of Geometric Shapes

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