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Strength of Materials- Part-III
17 students

Strength of Materials- Part-III

Learn basic concepts and numericals on Thin Cylinders, Spherical Shells and Columns & Struts
Created bySamanwita Bagg
Last updated 9/2022
English

What you'll learn

  • Thin Cylinders
  • Spherical Shells
  • Columns and Struts
  • Additional Lecture

Course content

5 sections12 lectures2h 21m total length
  • Introduction15:05

    This video is the first lecture on the topic Thin Cylinder & Spherical Shells of Strength of Materials Course. It discusses about pressure vessels and Hoop stress and longitudinal stress applied on it.

  • Hoop & Longitudinal stress and change in dimensions17:35

    This video is the second lecture on the topic Thin Cylinder & Spherical Shells of Strength of Materials Course. It discusses about hoop stress, longitudinal stress and change in dimensions for thin cylinder.

  • Numericals on Thin Cylinders10:23

    This video is the third lecture on the topic Thin Cylinder & Spherical Shells of Strength of Materials Course. It discusses numericals on hoop stress, longitudinal stress and change in dimensions for thin cylinder.

Requirements

  • Solid Mechanics
  • Basic Mathematics

Description

This course is the third part of the lecture series of Strength of Materials course. It takes you through various topics like Thin Cylinders, Spherical Shells and Columns and Struts. Various numerical are solved to explain the concepts and their applications. Basic Mathematics and Solid Mechanics are the requirement for understanding of this subject.

We start with introduction to Thin Cylinders and then solve numericals based on them. Concepts like Hoop Stress(circumferential stress) and Longitudinal stress are explained here. Then derivation on calculation of Hoop stress, longitudinal stress, shear stress and change in dimensions have been explained.

Further, we move to the concept of Spherical Shells and then solve numericals based on them. Concept of Hoop Stress(circumferential stress) is explained here. There is no longitudinal stress for spherical shells as sphere doesn't have length. Then derivation on calculation of Hoop stress, shear stress and change in dimensions have been explained.

Third section deals with Columns and Struts wherein Euler's theory and its assumptions for long column is explained. Numericals are solved for the same. Limitation of Euler's theory is also added for understanding the shift to use of  Rakhine-Gordan Formula. Further, Rakhine-Gordan Formula is explained and numericals are solved on it.

Lastly additional lecture has been provided to give extra information of the other available courses for better and in-depth understanding of the course.

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