Strength Of Materials- Part-II

Learn basic concepts of C.G. & M.I., Strain Energy, Deflection of Beams and Theory of Torsion
What you'll learn
C.G. & M.I.
Strain Energy
Deflection of Beams
Theory of Torsion
Requirements
Solid Mechanics
Basic Mathematics
Description
This course is the second part of the lecture series of Strength of Materials subject. It takes you through various topics like Centre of Gravity(C.G.) & Moment of Inertia(M.I.), Strain Energy, Deflection of Beams and Theory of Torsion. 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 (C.G.) and Moment of Inertia(M.I.) and then solve numericals based on C.G. and M.I.. Concepts like centroid, centre of gravity, radius of gyration, moment of inertia, polar modulus, section modulus, mass moment of inertia, area moment of inertia, parallel axis theorem and perpendicular axis theorem are explained here.Further, we move to the concept of Strain Energy. Three cases are discussed here- gradually applied load, suddenly applied load and suddenly applied load with impact. Strain energy for all these cases are discussed and also strain energy in composite and compound bars.Third section Deflection of Beams is explained. Flexural formula is derived and Macaulay's method is discussed which is then used for solving numericals for calculation of slope and deflection of beams under various loading conditions. Lastly we study about theory of torsion and derive torsional formula. Numericals are solved which is about designing shafts and analyzing if the design is safe for practical use. Concept of statically indeterminate shafts is discussed and numericals are solved based on it.
Overview
Section 1: C.G & M.I.
Lecture 1 Introduction to C.G. & M.I.
Lecture 2 Numericals on C.G.
Lecture 3 Numericals on M.I.
Section 2: Strain Energy
Lecture 4 Introduction to Strain Energy
Lecture 5 Stress due to Impact Load-Derivation
Lecture 6 Numericals on Basic Concepts
Lecture 7 Numericals on Stress due to Impact Load
Lecture 8 Strain Energy due to Self-Weight of bar
Lecture 9 Strain Energy for Composite bars-Theory
Lecture 10 Strain Energy for Composite bars-Numericals
Lecture 11 Strain Energy for Compound bars-Numericals
Section 3: Deflection of Beams
Lecture 12 Flexural Formula-Derivation
Lecture 13 Introduction to Macaulay's Method
Lecture 14 Numerical-I
Lecture 15 Numerical-II
Lecture 16 Numerical-III
Lecture 17 Numerical-IV
Lecture 18 Numerical-V
Lecture 19 Numerical-VI
Section 4: Theory of Torsion
Lecture 20 Introduction to Theory of Torsion
Lecture 21 Derivation of Torsional Formula
Lecture 22 Design Criteria of Shaft
Lecture 23 Numerical Set-I
Lecture 24 Numerical Set-II
Lecture 25 Numerical Set-III
Lecture 26 Numerical Set-IV
Lecture 27 Numerical Set-V
Lecture 28 Shafts in Series & Parallel-Theory
Lecture 29 Shafts in Series & Parallel-Numerical Set I
Lecture 30 Shafts in Series & Parallel-Numerical Set II
Lecture 31 Statically Indeterminate Shafts Theory
Lecture 32 Statically Indeterminate Shafts Numericals
Diploma in Mechanical/Civil/Automobile/Production Engineering Students,Competitive Exam students like GATE, IES etc.,Degree students of Mechanical/Automobile/Civil/Production Engineering Students


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Strength Of Materials- Part-II Fast Download
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