Stress Analysis – Simplified For Engineering Students

Learn stress basics, axial, torsion, bending, Mohr’s circle, and combined loading with real examples and applications.

What you'll learn

Understand the fundamentals of normal and shear stress

Analyze axial, torsional, and bending loads

Use Mohr’s Circle to determine principal stresses

Apply combined loading principles effectively

Requirements

Basic knowledge of engineering mechanics

Pen, paper, and willingness to learn

Description

Mechanical Engineering. Whether you're currently studying, recently graduated, or preparing for interviews and real-world mechanical design challenges, this course will help you build a solid understanding of how materials and structures behave under various types of loading.Throughout the course, you'll dive deep into concepts such as normal and shear stress, axial deformation, torsional loading, bending stress, and combined loadings. You will also learn how to use Mohr’s Circle for stress transformation and to find principal stresses and maximum shear. These are critical concepts in both academic and industrial mechanical design.Each topic is explained clearly using visual aids, solved examples, and real-life applications. We will also discuss the design implications, such as factor of safety, stress concentration, and material selection.This course is ideal for:Mechanical engineering students (especially 2nd and 3rd year)Teaching assistants building their teaching materialEngineers who need a refresher on stress fundamentalsFresh graduates preparing for job interviewsBy the end of this course, you’ll be able to confidently analyze mechanical components under different loads and understand the logic behind the design of shafts, beams, and structures.Whether you're studying for exams, preparing graduation projects, or starting your engineering career, this course will be a valuable tool in your academic and professional journey.Enroll now and take your mechanics knowledge to the next level!

Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 1-Stress Concept

Section 2: Axial Loading

Lecture 3 2-Axial Elongation - Part 1

Lecture 4 3-Axial Elongation - Part 2

Lecture 5 4-Poisson's Ratio

Lecture 6 5-Stress Concentration

Section 3: Torsion Stress

Lecture 7 6-Torsion

Section 4: Pure Bending

Lecture 8 7-Bending Stress

Section 5: Analysis and Design of Beams for Bending

Lecture 9 8-SFD & BMD (Concentrated Load)

Lecture 10 9-SFD & BMD (Distributed Load)

Section 6: Stress Transformation

Lecture 11 10-Stress Transformation Equations method

Lecture 12 11-Stress Transformation (2)

Lecture 13 12-Stress Transformation (Mohr’s Circle)

Section 7: Combined loadings

Lecture 14 13-Combined loadings

Mechanical engineering students (2nd–3rd year,Anyone interested in structural and mechanical design basics,Teaching assistants preparing material