Lecture 1 - Reinforced Cement Concrete
Lecture 2 - Working Stress Method
Lecture 3 - Working Stress Method: Examples
Lecture 4 - Doubly Reinforced Beam (WSM)
Lecture 5 - Material Characteristic Strengths
Lecture 6 - Material Characteristics
Lecture 7 - Limit State of Collapse
Lecture 8 - Singly Reinforced Section Design
Lecture 9 - Doubly Reinforced Section Design
Lecture 10 - Flanged Beam Section Design
Lecture 11 - Shear Design
Lecture 12 - Bond and Detailing
Lecture 13 - One-way Slab Design
Lecture 14 - Two-way Slab Design
Lecture 15 - Axially loaded Column
Lecture 16 - Axially loaded Column: Examples
Lecture 17 - Column Uniaxial Bending (NA Outside)
Lecture 18 - Column Uniaxial Bending (NA Inside)
Lecture 19 - Column Uniaxial Bending Examples
Lecture 20 - Shallow Footing
Lecture 21 - Isolated Footing Design: Example
Lecture 22 - Driven Pile Design
Lecture 23 - Ductile Detailing: IS 13920
Lecture 24 - Deep Beam Design Concept
Lecture 25 - Deep Beam Design: Example
Lecture 26 - Stair Design
Lecture 27 - Stair Design (Continued...)
Lecture 28 - Flat Salb Design
Lecture 29 - Earth Pressure and Wall Behaviour of Underground Water Tank
Lecture 30 - Underground Water Tank Design Example
Lecture 31 - Circular Tank: Flexible Joint
Lecture 32 - Circular Tank: Rigid Joint
Lecture 33 - Circular Tank Design: Approximate Method
Lecture 34 - Circular Tank Design: IS Code Method
Lecture 35 - Intze Tank: Structural Components
Lecture 36 - Intze Tank Design Example
Lecture 37 - Review: Underground Tank Design Example
Lecture 38 - Biaxial Column Design
Lecture 39 - Building Modeling and Analysis in STAAD Pro
Lecture 40 - Modal Analysis
Lecture 41 - Equivalent Static Seismic Analysis and Structural Design in STADD Pro
Lecture 42 - Response Spectrum Analysis and Design
Lecture 43 - Time History Analysis with Spectrum-Compatible Ground Motion
