Structural Analysis 3E WSE : Using Classical and Matrix Methods + CD
Highlight of the Third Edition
Improved and expanded examples provide greater clarity.
A CD, packaged with this text, includes the educational version of SAP2000 structural analysis software.
The data files for the computer examples worked using SAP2000 are now included on the CD-ROM.
The authors use matrix notation and methods of equation solving in many examples to facilitate solving the equations.
Expanded chapters on matrix methods for structural analysis now include a finite element formulation.
Extensively revised chapters on Reactions, Shearing Force and Bending Moment, Deflection and Angles Changes, and Energy Method for Statically Indeterminate Structures reflect current thinking and needs.
Updated coverage of Structural Loads and System Loading and Behavior includes the provisions of ASCE 7-98 and reference to the IBC 2000 building code.
Table of Contents
PART ONE: STATICALLY DETERMINATE STRUCTURES.
System Loading and Behavior.
Shearing Force and Bending Moment.
Introduction to Plane Trusses.
Plane Trusses, Continued.
Three-Dimensional or Space Trusses.
Introduction to Calculating Deflections.
Deflection and Angle Changes—Energy Methods.
PART TWO: STATICALLY INDETERMINATE STRUCTURES CLASSICAL METHODS.
Introduction to Statically Indeterminate Structures.
Energy Method for Statically Indeterminate Structures.
Influence Lines for Statically Indeterminate Structures.
Slope Deflection: A Displacement Method of Analysis.
PART THREE: STATICALLY INDETERMINATE STRUCTURES COMMON METHODS IN CURRENT PRACTICE.
Approximate Analysis of Indeterminate Structures.
Moment Distribution for Beams.
Moment Distribution for Frames.
Introduction to Matrix Methods.
Generalizing Matrix Methods.
Additional Topics in Matrix Methods.
Appendix A: The Catenary Equation.
Appendix B: Matrix Algebra.
Appendix C: Wind and Snowv Load Tables and Figures.
Appendix D: Beam Fixed-End Moments.
Appendix E: Properties of Commonly Used Areas.
Appendix F: Elastic Weight and Conjugate Beam Methods.