Statics and Mechanics of Materials – Beer & Johnston – 3rd Edition

Cover
Title Page
Copyright
About the Authors
Brief Contents
Contents
Preface
McGraw-Hill Connect
List of Symbols
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
Introduction
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
Introduction
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
Introduction
4.1 Equilibrium in Two Dimensions
4.2 Two Special Cases
4.3 Equilibrium in Three Dimensions
4.4 Friction Forces
Review and Summary
Review Problems

5 Distributed Forces: Centroids and Centers of Gravity
Introduction
5.1 Planar Centers of Gravity and Centroids
5.2 Further Considerations of Centroids
5.3 Distributed Loads on Beams
5.4 Centers of Gravity and Centroids of Volumes
Review and Summary
Review Problems

6 Analysis of Structures
Introduction
6.1 Analysis of Trusses
6.2 Other Truss Analyses
6.3 Frames
6.4 Machines
Review and Summary
Review Problems

7 Distributed Forces: Moments of Inertia
Introduction
7.1 Moments of Inertia of Areas
7.2 Parallel-Axis Theorem and Composite Areas
Review and Summary
Review Problems

8 Concept of Stress
Introduction
8.1 Stresses in the Members of a Structure
8.2 Stress on an Oblique Plane Under Axial Loading
8.3 Stress Under General Loading Conditions; Components of Stress
8.4 Design Considerations
Review and Summary
Review Problems

9 Stress and Strain—Axial Loading
Introduction
9.1 Basic Principles of Stress and Strain
9.2 Statically Indeterminate Problems
9.3 Problems Involving Temperature Changes
9.4 Poisson’s Ratio
9.5 Multiaxial Loading: Generalized Hooke’s Law
9.6 Shearing Strain
*9.7 Deformations Under Axial Loading—Relation Between E, ?, and G
9.8 Stress and Strain Distribution Under Axial Loading: Saint-Venant’s Principle
9.9 Stress Concentrations
Review and Summary
Review Problems

10 Torsion
Introduction
10.1 Circular Shafts in Torsion
10.2 Angle of Twist in the Elastic Range
10.3 Statically Indeterminate Shafts
Review and Summary
Review Problems

11 Pure Bending
Introduction
11.1 Symmetric Members in Pure Bending
11.2 Stresses and Deformations in the Elastic Range
11.3 Members Made of Composite Materials
11.4 Eccentric Axial Loading in a Plane of Symmetry
11.5 Unsymmetric Bending Analysis
11.6 General Case of Eccentric Axial Loading Analysis
Review and Summary
Review Problems

12 Analysis and Design of Beams for Bending
Introduction
12.1 Shear and Bending-Moment Diagrams
12.2 Relationships Between Load, Shear, and Bending Moment
12.3 Design of Prismatic Beams for Bending
Review and Summary
Review Problems

13 Shearing Stresses in Beams and Thin-Walled Members
Introduction
13.1 Horizontal Shearing Stress in Beams
13.2 Longitudinal Shear on a Beam Element of Arbitrary Shape
13.3 Shearing Stresses in Thin-Walled Members
Review and Summary
Review Problems

14 Transformations of Stress
Introduction
14.1 Transformation of Plane Stress
14.2 Mohr’s Circle for Plane Stress
14.3 Stresses in Thin-Walled Pressure Vessels
Review and Summary
Review Problems

15 Deflection of Beams
Introduction
15.1 Deformation Under Transverse Loading
15.2 Statically Indeterminate Beams
15.3 Method of Superposition
Review and Summary
Review Problems

16 Columns
Introduction
16.1 Stability of Structures
16.2 Centric Load Design
Review and Summary
Review Problems

Appendices
A Reactions at Supports and Connections
B Centroids and Moments of Inertia of Common Geometric Shapes
C Typical Properties of Selected Materials Used in Engineering
D Properties of Rolled-Steel Shapes
E Beam Deflections and Slopes
Index
Answers to Problems