**Module:1** Objectives and Methods of Analysis and Design, and Properties
of Concrete and Steel

Lesson
1 Objectives and Methods of Analysis and Design

Lesson 2 Properties of Concrete and Steel

**Module:2** Philosophies of Design by Limit State Method

Lesson 3
Philosophies of Design by Limit State Method

**Module:3** Limit State of Collapse - Flexure (Theories and Examples)

Lesson 4
Computation of Parameters of Governing Equations

Lesson 5 Determination of Neutral Axis Depth and Computation
of Moment of Resistance

Lesson 6 Numerical Problems on Singly Reinforced Rectangular
Beams

Lesson 7 Numerical Problems on Singly Reinforced Rectangular
Beams (Continued)

**Module:4** Doubly Reinforced Beams – Theory and Problems

Lesson 8
Doubly Reinforced Beams – Theory

Lesson 9 Doubly Reinforced Beams – Theory

**Module:5** Flanged Beams – Theory and Numerical Problems

Lesson 10
Flanged Beams – Theory

Lesson 11 Flanged Beams – Numerical Problems

Lesson 12 Flanged Beams – Numerical Problems (Continued)

**Module:6** Shear, Bond, Anchorage, Development
Length and Torsion

Lesson 13
Limit State of Collapse in Shear

Lesson 14 Limit State of Collapse in Shear – Numerical
Problems

Lesson 15 Bond, Anchorage, Development Length and Splicing

Lesson 16 Torsion in Beams - Limit State of Collapse

**Module:7** Limit State of Serviceability

Lesson 17
Limit State of Serviceability

**Module:8** Reinforced Concrete Slabs

Lesson 18
One-way Slabs

Lesson 19 Two-way Slabs

**Module:9** Staircases

Lesson
20 Types and Design of Staircases

**Module:10** Compression Members

Lesson
21 Definitions, Classifications, Guidelines and Assumptions

Lesson 22 Short Axially Loaded Compression Members

Lesson 23 Short Compression Members under Axial Load with Uniaxial
Bending

Lesson 24 Preparation of Design Charts

Lesson 25 Design of Short Columns under Axial Load with Uniaxial
Bending

Lesson 26 Short Compression Members under Axial Load with Biaxial
Bending

Lesson 27 Slender Columns

**Module:11** Foundations - Theory and Design

Lesson
28 Foundations - Theory

Lesson 29 Design of Foundations

**Module:12** Yield Line Analysis for Slabs

Lesson
30 Basic Principles, Theory and One-way Slabs

Lesson 31 Nodal Forces and Two-way Slabs

Lesson 32 Two-way Rectangular, Square, Triangular and Circular
Slabs

Lesson 33 Numerical Examples

**Module:13** Working Stress Method

Lesson
34 Rectangular Beams under Flexure

Lesson 35 Numerical Problems

**Module:14** Tension Members

Lesson
36 Structural Requirements, Code Stipulations and Governing
Equations

Lesson 37 Numerical Problems

**Module:15** Redistribution of Moments

Lesson
38 Redistribution of Moments – Theory and Numerical Problems

**Module:16** Earthquake Resistant Design of Structures

Lesson 39 Seismic Effects, Material Behaviour and General Principles
of Earthquake Resistant Design of structures

Lesson 40 Ductile Design and Detailing of Earthquake Resistant
Structures

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