Engineering Mechanics: Statics, SI Edition

1. Introduction to Statics
Introduction / Newtonian Mechanics / Fundamental Properties of Vectors / Representation of Vectors Using Rectangular Components / Vector Multiplication
2. Basic Operations with Force Systems
Introduction / Equivalence of Vectors / Force / Reduction of Concurrent Force Systems / Moment of Force About a Point / Moment of Force About an Axis / Couples / Changing the Line of Action of a Force
3. Resultants of Force Systems
Introduction / Reducing a Force System to a Force and a Couple / Definition of Resultant / Resultants of Coplanar Force Systems / Resultants of Noncoplanar Force Systems / Introduction to Distributed Normal Loads
4. Coplanar Equilibrium Analysis
Introduction / Definition of Equilibrium
Part A: Analysis of Single Bodies - Free-Body Diagrams of a Body / Coplanar Equilibrium Equations / Writing and Solving Equilibrium Equations / Equilibrium Analysis for Single-Body Problems
Part B: Analysis of Composite Bodies - Free-Body Diagrams InvolvingInternal Reactions / Equilibrium Analysis of Composite Bodies / Special Cases: Two-Force and Three-Force Bodies
Part C: Analysis of Plane Trusses - Description of a Truss / Method of Joints / Method of Sections
5. Non-Coplanar Equilibrium Introduction / Definition of Equilibrium / Free-Body Diagrams / Independent Equilibrium Equations / Improper Constraints / Writing and Solving Equilibrium Equations / Equilibrium Analysis
6. Beams and Cables
Introduction
Part A: Beams - Internal Force Systems / Analysis of Internal Forces / Area Method for Drawing V- and M- Diagrams
Part B: Cables - Cables Under Distributed Loads / Cables Under Concentric Loads
7. Dry Friction
Introduction / Coulomb's Theory of Dry Friction / Problem Classification and Analysis / Impending Tipping / Angle of Friction; Wedges and Screws / Ropes and Flat Belts / Disk Friction
8. Centroids and Distributed Loads
Introduction / Centroids of Plane Areas and Curves / Centroids of Curved Surfaces, Volumes, and