Structural Engineering
Module 1 Energy Methods in Structural Analysis
Lesson 1 General Introduction
Lesson2 Principle of Superposition, Strain Energy
Lesson 3 Castigliano’s Theorems
Lesson 4 Theorem of Least Work
Lesson 5 Virtual Work
Lesson 6 Engesser’s Theorem and Truss Deflections by Virtual Work Principles
Lesson 7 The Force Method of Analysis: An Introduction
Lesson 8 The Force Method of Analysis: Beams
Lesson 9 The Force Method of Analysis: Beams (Continued)
Lesson 10 The Force Method of Analysis: Trusses
Lesson 11 The Force Method of Analysis: Frames
Lesson 12 Three-Moment Equations-I
Lesson 13 The Three-Moment Equations-Ii
Module 3 Analysis of Statically Indeterminate Structures by the Displacement Method
Lesson 14 The Slope-Deflection Method: An Introduction
Lesson 15 The Slope-Deflection Method: Beams (Continued)
Lesson 16 The Slope-Deflection Method: Frames Without Sidesway
Lesson 18 The Moment-Distribution Method: Introduction
Lesson 19 The Moment-Distribution Method: Statically Indeterminate Beams With Support Settlements
Lesson 20 Moment-Distribution Method: Frames without Sidesway,
Lesson 21 The Moment-Distribution Method: Frames with Sidesway,
Lesson 22 The Multistory Frames with Sideswa
Module 4 Analysis of Statically Indeterminate Structures by the Direct Stiffness Method
Lesson 23 The Direct Stiffness Method: An Introduction
Lesson 24 The Direct Stiffness Method: Truss Analysis
Lesson 25 The Direct Stiffness Method: Truss Analysis (Continued)
Lesson 26 The Direct Stiffness Method: Temperature Changes and Fabrication Errors in Truss Analysis
,Lesson 27 The Direct Stiffness Method: Beams
Lesson 28 The Direct Stiffness Method: Beams (Continued)
Lesson 29 The Direct Stiffness Method: Beams (Continued)
Lesson 30 The Direct Stiffness Method: Plane Frames
Module 5 Cables and Arches
Lesson 31 Cables
Lesson 32 Three-Hinged Arch
Lesson 33 Two-Hinged Arch
Lesson 34 Symmetrical Hingeless Arch
Module 6 Approximate Methods for Indeterminate Structural Analysis
Lesson 35 Indeterminate Trusses and Industrial Frames
Lesson 36 Building Frames,
Module 7 Influence Lines
Lesson 37 Moving Load and Its Effects on Structural Members
Lesson 38 Influence Lines for Beams
Lesson 39 Influence Lines for Beams (Contd.),
Lesson 40 Influence Lines for Simple Trusses
Computer Analysis & Reinforced Concrete Design of Beams.pdf (129 pages pdf file, 1 MB).
Structural Engineering Handbook 28.23 MB
Structural Details in Concrete 7.43 MB
Structural Analysis 1.81 MB
Failure Analysis Case Studies 8.43 MB
Fixed Grid Finite Element Analysis in Structural Design & Optimization 0.22 MB
Slope deflection Method 401 KB
Lesson 1 General Introduction
Lesson2 Principle of Superposition, Strain Energy
Lesson 3 Castigliano’s Theorems
Lesson 4 Theorem of Least Work
Lesson 5 Virtual Work
Lesson 6 Engesser’s Theorem and Truss Deflections by Virtual Work Principles
Lesson 7 The Force Method of Analysis: An Introduction
Lesson 8 The Force Method of Analysis: Beams
Lesson 9 The Force Method of Analysis: Beams (Continued)
Lesson 10 The Force Method of Analysis: Trusses
Lesson 11 The Force Method of Analysis: Frames
Lesson 12 Three-Moment Equations-I
Lesson 13 The Three-Moment Equations-Ii
Module 3 Analysis of Statically Indeterminate Structures by the Displacement Method
Lesson 14 The Slope-Deflection Method: An Introduction
Lesson 15 The Slope-Deflection Method: Beams (Continued)
Lesson 16 The Slope-Deflection Method: Frames Without Sidesway
Lesson 18 The Moment-Distribution Method: Introduction
Lesson 19 The Moment-Distribution Method: Statically Indeterminate Beams With Support Settlements
Lesson 20 Moment-Distribution Method: Frames without Sidesway,
Lesson 21 The Moment-Distribution Method: Frames with Sidesway,
Lesson 22 The Multistory Frames with Sideswa
Module 4 Analysis of Statically Indeterminate Structures by the Direct Stiffness Method
Lesson 23 The Direct Stiffness Method: An Introduction
Lesson 24 The Direct Stiffness Method: Truss Analysis
Lesson 25 The Direct Stiffness Method: Truss Analysis (Continued)
Lesson 26 The Direct Stiffness Method: Temperature Changes and Fabrication Errors in Truss Analysis
,Lesson 27 The Direct Stiffness Method: Beams
Lesson 28 The Direct Stiffness Method: Beams (Continued)
Lesson 29 The Direct Stiffness Method: Beams (Continued)
Lesson 30 The Direct Stiffness Method: Plane Frames
Module 5 Cables and Arches
Lesson 31 Cables
Lesson 32 Three-Hinged Arch
Lesson 33 Two-Hinged Arch
Lesson 34 Symmetrical Hingeless Arch
Module 6 Approximate Methods for Indeterminate Structural Analysis
Lesson 35 Indeterminate Trusses and Industrial Frames
Lesson 36 Building Frames,
Module 7 Influence Lines
Lesson 37 Moving Load and Its Effects on Structural Members
Lesson 38 Influence Lines for Beams
Lesson 39 Influence Lines for Beams (Contd.),
Lesson 40 Influence Lines for Simple Trusses
Computer Analysis & Reinforced Concrete Design of Beams.pdf (129 pages pdf file, 1 MB).
Structural Engineering Handbook 28.23 MB
Structural Details in Concrete 7.43 MB
Structural Analysis 1.81 MB
Failure Analysis Case Studies 8.43 MB
Fixed Grid Finite Element Analysis in Structural Design & Optimization 0.22 MB
Slope deflection Method 401 KB
Mechanics of solids
Mechanics Of Solids
Mechanics Of Solids
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