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• Cover
• Title Page
• Copyright page
• Preface
• Acknowledgements
• About the Authors
• Chapter 1 Principles and Tools For Static Analysis
• 1.1 How Does Engineering Analysis Fit into Engineering Practice?
• 1.2 Physics Principles: Newton’s Laws Reviewed
• 1.3 Properties and Units in Engineering Analysis
• 1.3 Exercises
• 1.4 Coordinate Systems and Vectors
• 1.4 Exercises
• 1.5 Drawing
• 1.5 Exercises
• 1.6 Problem Solving
• 1.6 Exercises
• 1.7 A Map of This Text
• 1.8 Just the Facts
• Chapter 2 Forces
• 2.1 What Are Forces? An Overview
• 2.2 Gravitational Forces
• 2.2 Exercises
• 2.3 Contact Forces
• 2.3 Exercises
• 2.4 Identifying Forces for Analysis
• 2.4 Exercises
• 2.5 Representing Force Vectors
• 2.5 Exercises
• 2.6 Resultant Force—Vector Addition
• 2.6 Exercises
• 2.7 Angle between Two Forces—The Dot Product
• 2.7 Exercises
• 2.8 Just the Facts
• Chapter 3 Moments
• 3.1 What Are Moments?
• 3.1 Exercises
• 3.2 Mathematical Representation of a Moment
• 3.2 Exercises
• 3.3 Finding Moment Components in a Particular Direction
• 3.3 Exercises
• 3.4 When Are Two Forces Equal to a Moment? (When They Are a Couple)
• 3.4 Exercises
• 3.5 Equivalent Loads
• 3.5 Exercises
• 3.6 Just the Facts
• Chapter 4 Modeling Systems with Free-Body Diagrams
• 4.1 Types of External Loads Acting on Systems
• 4.1 Exercises
• 4.2 Planar System Supports
• 4.2 Exercises
• 4.3 Nonplanar System Supports
• 4.3 Exercises
• 4.4 Modeling Systems as Planar Or Nonplanar
• 4.4 Exercises
• 4.5 A Step‐by‐Step Approach to Free‐Body Diagrams
• 4.5 Exercises
• 4.6 Just the Facts
• Chapter 5 Mechanical Equilibrium
• 5.1 Conditions of Mechanical Equilibrium
• 5.1 Exercises
• 5.2 The Equilibrium Equations
• 5.2 Exercises
• 5.3 Applying the Planar Equilibrium Equations
• 5.3 Exercises
• 5.4 Equilibrium Applied to Four Special Cases
• 5.4.1 Particle Equilibrium
• 5.4.1 Exercises
• 5.4.2 Two-Force Member Equilibrium
• 5.4.2 Exercises
• 5.4.3 Three-Force Members in Equilibrium
• 5.4.3 Exercises
• 5.4.4 Frictionless Pulleys in Equilibrium
• 5.4.4 Exercises
• 5.5 Applying the Nonplanar Equilibrium Equations
• 5.5 Exercises
• 5.6 Zooming in on Subsystems
• 5.6 Exercises
• 5.7 Determinate, Indeterminate, and Underconstrained Systems
• 5.7 Exercises
• 5.8 Just the Facts
• Chapter 6 Distributed Force
• 6.1 Center of Mass, Center of Gravity, and the Centroid
• 6.1 Exercises
• 6.2 Distributed Force Acting on a Boundary
• 6.2 Exercises
• 6.3 Hydrostatic Pressure
• 6.3 Exercises
• 6.4 Area Moment of Inertia
• 6.4 Exercises
• 6.5 Just the Facts
• Chapter 7 Dry Friction and Rolling Resistance
• 7.1 Coulomb Friction Model
• 7.1 Exercises
• 7.2 Friction in Static Analysis: Wedges, Belts, and Journal Bearings
• 7.2 Exercises
• 7.3 Rolling Resistance
• 7.3 Exercises
• 7.4 Just the Facts
• Chapter 8 Member Loads in Trusses
• 8.1 Defining a Truss
• 8.2 Truss Analysis by Method of Joints
• 8.2 Exercises
• 8.3 Truss Analysis by Method of Sections
• 8.3 Exercises
• 8.4 Identifying Zero‐Force Members
• 8.4 Exercises
• 8.5 Determinate, Indeterminate, and Unstable Trusses
• 8.5 Exercises
• 8.6 Just the Facts
• Chapter 9 Member Loads in Frames and Machines
• 9.1 Defining and Analyzing Frames
• 9.1 Exercises
• 9.2 Defining and Analyzing Machines
• 9.2 Exercises
• 9.3 Determinacy and Stability in Frames
• 9.3 Exercises
• 9.4 Just the Facts
• Chapter 10 Internal Loads in Beams
• 10.1 Defining Beams and Recognizing Beam Configurations
• 10.1 Exercises
• 10.2 Beam Internal Loads
• 10.2 Exercises
• 10.3 Axial Force, Shear Force, and Bending Moment Diagrams
• 10.3 Exercises
• 10.4 Bending Moment Related to Shear Force and Normal Stress
• 10.4 Exercises
• 10.5 Just the Facts
• Chapter 11 Internal Loads in Cables
• 11.1 Cables with Point Loads
• 11.1 Exercises
• 11.2 Cables with Distributed Loads
• 11.2 Exercises
• 11.3 Just the Facts
• Appendix A Selected Topics in Mathematics
• A.1 Algebra
• A.2 Analytic Geometry
• A.3 Trigonometry
• A.4 The Cross Product (Vector Product)
• Appendix B Physical Quantities
• B.1 Physical Properties
• B.2 Solar System Constants
• B.3 Conversion Factors from U.S. Customary Units
• Appendix C Properties of Areas and Volumes
• C.1 Areas, Centroids, and Area Moments of Inertia
• C.2 Volumes and Centroids
• Appendix D Case Study: The Bicycle
• D.1 The Forces of Bicycling
• D.2 What Is the Maximum Speed?
• D.3 Adding More Reality
• D.4 Just the Facts
• Appendix E Case Study: The Golden Gate Bridge
• E.1 A Walk across the Bridge
• E.2 How Heavy Should the Anchorages Be?
• E.3 Adding More Reality
• E.4 Just the Facts
• E.5 References
• Index
• EULA