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Full Description
Teach students to develop their intuition and the habit of evaluating their results.
Structural Analysis helps students develop intuition and the habit of evaluating the reasonableness of structural analysis results. With examples and problems that use a guess, calculate, and evaluate results structure, the text will help students develop the metacognitive skill of thinking about their own thought processes.
For courses in structural analysis.
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Contents
Loads and Structure Idealization
1.1 Loads
1.2 Load Combinations
1.3 Structure Idealization
1.4 Application of Gravity Loads
1.5 Application of Lateral Loads
1.6 Distribution of Lateral Loads by Flexible Diaphragm
Predicting Results
2.1 Qualitative Truss Analysis
2.2 Principle of Superposition
2.3 Principle of Superposition
2.4 Approximating Loading Conditions
Cables and Arches
3.1 Cables with Point Loads
3.2 Cables with Uniform Loads
3.3 Arches
Internal Force Diagrams
4.1 Internal Forces by Integration
4.2 Constructing Diagrams by Deduction
4.3 Diagrams for Frames
Deformations
5.1 Double Integration Method
5.2 Conjugate Beam Method
5.3 Virtual Work Method
Influence Lines
6.1 Table-of-Points Method
6.2 Müller-Breslau Method
6.3 Using Influence Lines
Introduction to Computer Aided Analysis
7.1 Why Computer Results are Always Wrong
7.2 Checking Fundamental Principles
7.3 Checking Features of the Solution
Approximate Analysis of Indeterminate Trusses and Braced Frames
8.1 Indeterminate Trusses
8.2 Braced Frames with Lateral Loads
8.3 Braced Frames with Gravity Loads
Approximate Analysis of Rigid Frames
9.1 Gravity Load Method
9.2 Portal Method for Lateral Loads
9.3 Cantilever Method for Lateral Loads
9.4 Combined Gravity and Lateral Loads
Approximate Lateral Displacements
10.1 Braced Frames — Story Drift Method
10.2 Braced Frames — Virtual Work Method
10.3 Rigid Frames — Stiff Beam Method
10.4 Rigid Frames — Virtual Work Method
10.5 Solid Walls — Single Story
10.6 Solid Walls — Multistory
Diaphragms
11.1 Distribution of Lateral Loads by Rigid Diaphragm
11.2 In Plane Shear: Collector Beams
11.3 In Plane Moment: Diaphragm Chords
Force Method
12.1 One Degree Indeterminate Beams
12.2 Multi-Degree Indeterminate Beams
12.3 Indeterminate Trusses
Moment Distribution Method
13.1 Overview of Method
13.2 Fixed End Moments and Distribution Factors
13.3 Beams and Sidesway Inhibited Frames
13.4 Sidesway Frames
Direct Stiffness Method for Trusses
14.1 Overview of Method
14.2 Transformation and Element Stiffness Matrices
14.3 Compiling the System of Equations
14.4 Finding Deformations, Reactions and Internal Forces
14.5 Additional Loadings
Direct Stiffness Method for Frames
15.1 Element Stiffness Matrix
15.2 Transformation Matrix
15.3 Global Stiffness Matrix
15.4 Loads Between Nodes
15.5 Direct Stiffness Method
15.6 Internal Forces
