Strength of Materials- Part I

Name: Strength of Materials- Part I
Rating: 4.2 (17 reviews)

Learn basic concepts of Stresses & Strains and SFD & BMD

Created bySamanwita Bagg

Last updated 9/2022

English

What you'll learn

Basics of Strength of Materials
History of Unit Systems
Shear Stresses and Strains
Shear Force and Bending Moment
SFD, BMD and AFD

Course content

5 sections • 37 lectures • 9h 57m total length

History of Unit Systems14:15
This video discusses the history of unit systems

Types of stresses and strains34:57
This video discusses the types of stresses and strains.
Change in length of a simple bar subjected to tensile/compressive loading16:25
This video discusses change in length of a simple bar subjected to tensile/compressive loading
Stress-strain diagram for ductile and brittle materials21:07
This video discusses stress-strain diagram for ductile and brittle materials.
Numericals on Stress-strain diagram formulas10:44
This lecture discusses numericals on stress-strain diagram of ductile materials.
Stress and strain in bars with varying cross-section19:39
This video discusses stress and strain in bars with varying cross-sections.
Numerical on Stress and strain in bars with varying cross-section10:30
This video discusses numericals on stress and strain in bars with varying cross-sections.
Numerical on Stress and strain in bars with varying cross-section21:44
This video discusses numericals on stress and strain in bars with varying cross-section.
Numerical on Stress and strain in bars with varying cross-section25:31
This video discusses numericals on stress and strain in bars with varying cross-section.
Numerical on Stress and strain in bars with varying cross-section12:54
This video discusses numericals on stress and strain in bars with varying cross-section.
Elongation of tapered bar with circular cross-section12:22
This video discusses elongation of tapered bar with circular cross-section.
Elongation of tapered bar with rectangular cross-section8:41
This video discusses elongation of tapered bar with rectangular cross-section.
Elongation of bar due to self-weight8:59
This video discusses elongation of bar due to self-weight
Stress-strain in composite bars rigidly connected in parallel15:52
This video discusses stress-strain in composite bars rigidly connected in parallel.
Temperature stress-strain in simple and composite bars17:21
This video discusses temperature stress-strain in simple and composite bars.
Numerical on Temperature stress-strain in simple and composite bars14:39
This video discusses numericals on temperature stress-strain in simple and composite bars
Concept of Strain and Poisson's Ratio13:26
This video discusses concept of strain and Poisson's ratio.
Uniaxial & Biaxial Loading-Derivation16:17
This video discusses the concept of uniaxial and biaxial Loading.
Triaxial Loading-Derivation23:00
This video discusses the concept of Triaxial Loading.
Triaxial Loading-Numericals13:55
This video discusses Triaxial Loading-Numericals.
Bulk Modulus and Elastic Constants Relationship9:20
This video discusses Bulk Modulus and Elastic Constants Relationship

Types of Loads, Supports and Beams19:40
This video discusses the concept of types of loads, supports and beams.
Shear Force and Bending Moment Sign Conventions19:52
This video discusses the concept of shear force and bending moment sign conventions.
Numerical-I on SFD and BMD18:49
This video discusses numerical on shear force and bending moment diagram.
Numerical-II on SFD and BMD23:03
This video discusses numerical on shear force and bending moment diagram.
Numerical-III on SFD and BMD23:45
This video discusses numerical on shear force and bending moment diagram.
Numerical-IV on SFD and BMD14:19
This video discusses numerical on shear force and bending moment diagram.
Numerical-V on SFD and BMD14:02
This video discusses numerical on shear force and bending moment diagram.
Numerical-VI on SFD and BMD12:35
This video discusses numerical on shear force and bending moment diagram.
Numerical-VII on SFD and BMD20:20
This video discusses numerical on shear force and bending moment diagram.
Numerical-VIII on SFD and BMD10:08
This video discusses numerical on shear force and bending moment diagram.
Numerical-IX on SFD and BMD13:57
This video discusses numerical on shear force and bending moment diagram.
Numerical-X on SFD and BMD13:57
This video discusses numerical on shear force and bending moment diagram.
Numerical-XI on SFD and BMD14:58
This video discusses numerical on shear force and bending moment diagram.
Numerical-XII on SFD and BMD13:30
This video discusses numerical on shear force and bending moment diagram.
Numerical-XIII on SFD and BMD23:08
This video discusses numerical on shear force and bending moment diagram.

Requirements

Solid Mechanics
Basics of Mathematics

Description

This course is the first part of the lecture series of Strength of Materials subject. It takes you through various topics like Stresses & Strains, Shear Force Diagram(SFD) & Bending Moment Diagram(BMD). Various numerical are solved to explain various concepts and their applications. Basic Mathematics and Solid Mechanics are the requirement for understanding of this subject.

We start with introduction to history of Unit Systems wherein we study about Foot-Pound-Second(F.P.S), Meter-Kilogram-Second(M.K.S) and Centimeter-Gram-Second(C.G.S) systems. Their interconversions is also explained along with the importance of unit system in engineering.

Further, we move to the concept of Stresses and Strains where topics like types of stresses and strains, derivation for change in length, stress-strain for ductile and brittle materials, elongation of tapered bar, elongation of bar due to self-weight, stress and strain in composite and compound bars, temperature stresses and strains, concept of strain, Poisson's Ratio, uniaxial-biaxial-triaxial loading, elastic constants- and numericals on all these topics.

Lastly we study about Shear Force Diagram(SFD) and Bending Moment Diagram(BMD). Topics like types of supports, beams, reactions, Shear Force and Bending Moment sign conventions and numericals are discussed in it.

Test is given at the end of course for practice so that expertise can be gained in dealing with day-to-day problems.

Who this course is for:

Diploma in Mechanical/Civil/Automobile/Production Engineering Students
Competitive Exam students like GATE, IES etc.
Degree students of Mechanical/Automobile/Civil/Production Engineering Students

Strength of Materials- Part I

What you'll learn

Explore related topics

Course content

Introduction1 lecture • 14min

Simple Stresses & Strains20 lectures • 5hr 27min

S.F.D and B.M.D15 lectures • 4hr 16min

Assignment0

List of Reference Books1 lecture • 1min

Requirements

Description

Who this course is for: