NPTEL : NOC:Mechanics of Solids (Civil Engineering)

Co-ordinators : Dr. Priyanka Ghosh


Lecture 1 - Course Handout

Lecture 2 - Analysis of Mechanical System

Lecture 3 - Conditions of equilibrium in 2D and 3D

Lecture 4 - FBD with examples on modelling of typical supports and joints

Lecture 5 - Support Conditions

Lecture 6 - FBD of Frame Structures

Lecture 7 - Stability of Truss

Lecture 8 - Solutions of Plane Truss

Lecture 9 - Method of Sections

Lecture 10 - Friction 2

Lecture 11 - Tutorial on Truss

Lecture 12 - Tutorial on Friction

Lecture 13 - Force Displacement Relationship

Lecture 14 - Hoop Stresses

Lecture 15 - Mechanism of belt around wheel

Lecture 16 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 1

Lecture 17 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 2

Lecture 18 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 3

Lecture 19 - Concept of Stress

Lecture 20 - Plane Stress

Lecture 21 - State of Stresses

Lecture 22 - Mohrs Circle representation of plane stress

Lecture 23 - Construction of Mohrs Circle

Lecture 24 - Principal Stresses and Introduction to Concept of Strain

Lecture 25 - Normal Strain and Shear Strain

Lecture 26 - Strain Transformation

Lecture 27 - Strain Measurement

Lecture 28 - Tutorial

Lecture 29 - Tutorial on Concept of Strain.

Lecture 30 - Elastic Stress Strain Relationship

Lecture 31 - Von Mises Yield Criteria

Lecture 32 - Tresca Criteria

Lecture 33 - True Stress Strain

Lecture 34 - Tutorial 2

Lecture 35 - Forces and Moments Transmitted by Slender Members

Lecture 36 - Bending Moment

Lecture 37 - Shear Force and Bending Moment Diagrams

Lecture 38 - Differential Equation Relationship

Lecture 39 - Tutorial 3

Lecture 40 - Tutorial 4

Lecture 41 - Torsion

Lecture 42 - Stress Components

Lecture 43 - Tutorial A

Lecture 44 - Tutorial B

Lecture 45 - Stresses due to Bending

Lecture 46 - Equilibrium Requirements

Lecture 47 - Beam Transmitting both Shear Force and Bending Moment

Lecture 48 - Shear Stress Distribution

Lecture 49 - Distribution of Shear Stress in I Beam

Lecture 50 - Tutorial 1

Lecture 51 - Deflections due to Bending

Lecture 52 - Integration of Moment Curvature Relation

Lecture 53 - Superposition Continued

Lecture 54 - Load Deflection Differential Equation

Lecture 55 - Castigliano’s Theorem

Lecture 56 - Strain Energy Methods

Lecture 57 - Introduction to Concept of Elastic Instability

Lecture 58 - Critical Load

Lecture 59 - Critical Load for Flexible Columns

Lecture 60 - Concluding Lecture