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Mechanics Of Materials Part 1 - AD-TEAM - 08-03-2025
![[Image: 323944ef861e0deed9ebaeb850ff6c1c.jpg]](https://i125.fastpic.org/big/2025/0804/1c/323944ef861e0deed9ebaeb850ff6c1c.jpg)
Mechanics Of Materials Part 1
Published 12/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 4.73 GB | Duration: 15h 58m
The study of stress, strain, torsion and bending
What you'll learn
Chapter 1 - Calculate internal loadings, normal stress, shear stress and allowable stresses
Chapter 2 - Determine normal and shear strains caused by external loads
Chapter 3 - Understand stress-strain diagrams and Poisson's ratio
Chapter 4 - Calculate elastic deformation due to axial loads, thermal stresses and statically indeterminate systems
Chapter 5 - Find angle of twist and stresses due to torsional loadings
Chapter 6 - Understand the concepts of the flexure formulas, drawing shear and moment diagrams, and bending stresses
Requirements
Students must have already completed a Statics course. We will be drawing free body diagrams and using the concepts of equilibrium and method of sections.
The calculus concepts of derivatives and integrals are also needed.
Description
Mechanics of Materials is the class that follows Statics. It uses many of the concepts learned in Statics like equilibrium, moments, method of sections, and free body diagrams. The difference between the two courses is that in Statics you study the external loadings. In Mechanics of Materials, we'll study how external loadings affect bodies internally.We'll look at things like shear stress and strain, how temperature causes deformation, torsion (twisting), bending and more. Gone are the days of rigid bodies that don't change shape. Now things will be getting longer / shorter, twisting, bending and changing shape.Here's what you get with the course:1. 15.5 + hours of on-demand videos featuring easy-to-follow lectures and problem-solving tips2. Fully worked examples in a range of difficulty levels3. Homework problems for you to apply the knowledge learned. Solutions are included.4. We will cover most sections in Chapters 1-6 of the widely-used Mechanics of Materials textbook by Hibbeler.5. Downloadable outline of notes to help you follow along with me in the lectures6. Downloadable equation sheet that contains all the important equations covered in class7. An experienced instructor with 20+ years of university teaching experience & 8 years of industry experienceThis is a fundamental engineering course that is a must-have for any engineering student. Enroll today!
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 Outline of Notes and Equation Sheet
Lecture 3 1.1 Internal Loadings
Lecture 4 1.2 Example 1
Lecture 5 1.3 Example 2
Lecture 6 1.4 Example 3
Lecture 7 Homework 1 and Solutions
Lecture 8 1.5 Stress
Lecture 9 1.6 Average Normal Stress
Lecture 10 1.7 Example 4
Lecture 11 1.8 Example 5
Lecture 12 1.9 Average Shear Stress
Lecture 13 1.10 Example 6
Lecture 14 1.11 Example 7
Lecture 15 Homework 2 and Solutions
Lecture 16 1.12 Allowable Stress
Lecture 17 1.13 Example 8
Lecture 18 1.14 Example 9
Lecture 19 Homework 3 and Solutions
Section 2: Chapter 2 - Strain
Lecture 20 2.1 Strain
Lecture 21 2.2 Example 10
Lecture 22 2.3 Example 11
Lecture 23 2.4 Example 12
Lecture 24 Homework 4 and Solutions
Section 3: Chapter 3 - Mechanical Properties of Materials
Lecture 25 3.1 Stress Strain Diagram
Lecture 26 3.2 Strain Energy
Lecture 27 3.3 Example 13
Lecture 28 3.4 Example 14
Lecture 29 3.5 Example 15
Lecture 30 3.6 Poisson's Ratio
Lecture 31 3.7 Example 16
Lecture 32 3.8 Shear Stress Strain Diagram
Lecture 33 3.9 Example 17
Lecture 34 Homework 5 and Solutions
Section 4: Chapter 4 - Axial Load
Lecture 35 4.1 Axial Loads
Lecture 36 4.2 Example 18
Lecture 37 4.3 Example 19
Lecture 38 4.4 Example 20 and Homework 6
Lecture 39 Homework 6 and Solutions
Lecture 40 4.5 Statically Indeterminate Members
Lecture 41 4.6 Example 21
Lecture 42 4.7 Example 22
Lecture 43 Homework 7 and Solutions
Lecture 44 4.8 Thermal Stress
Lecture 45 4.9 Example 23
Lecture 46 4.10 Example 24
Lecture 47 Homework 8 and Solutions
Lecture 48 4.11 Stress Concentrations
Lecture 49 4.12 Example 25
Lecture 50 Homework 9 and Solutions
Section 5: Chapter 5 - Torsion
Lecture 51 5.1 Torsion Formulas
Lecture 52 5.2 Example 26
Lecture 53 5.3 Example 27
Lecture 54 5.4 Power Transmission
Lecture 55 5.5 Example 28
Lecture 56 Homework 10 and Solutions
Lecture 57 5.6 Angle of Twist
Lecture 58 5.7 Example 29
Lecture 59 5.8 Example 30
Lecture 60 5.9 Example 31
Lecture 61 Homework 11 and Solutions
Lecture 62 5.10 Statically Indeterminate Members
Lecture 63 5.11 Example 32
Lecture 64 5.12 Example 33
Lecture 65 Homework 12 and Solutions
Lecture 66 5.13 Stress Concentrations
Lecture 67 5.14 Example 34
Lecture 68 5.15 Example 35
Lecture 69 Homework 13 and Solutions
Section 6: Chapter 6 - Bending
Lecture 70 6.1 Shear and Moment Diagrams - Equation Method
Lecture 71 6.2 Example 36
Lecture 72 6.3 Example 37
Lecture 73 6.4 Example 38
Lecture 74 Homework 14 and Solutions
Lecture 75 6.5 Graphical Shear and Moment Diagrams
Lecture 76 6.6 Example 39
Lecture 77 6.7 Example 40
Lecture 78 6.8 Example 41
Lecture 79 6.9 Example 42
Lecture 80 6.10 Example 43
Lecture 81 Homework 15 and Solutions
Lecture 82 6.11 Bending Deformation
Lecture 83 6.12 Flexure Formulas
Lecture 84 6.13 Example 44
Lecture 85 6.14 Example 45
Lecture 86 Homework 16 and Solutions
Lecture 87 6.15 Unsymmetric Bending
Lecture 88 6.16 Example 46
Lecture 89 6.17 Example 47
Lecture 90 Homework 17 and Solutions
Engineering students wanting to get a head start on an upcoming Mechanics of Materials course,Students currently taking Mechanics of Materials who need extra examples and explanations,Graduate students who need to review the fundamentals before taking higher-level mechanics classes,Students and professionals who are preparing to take the Fundamentals of Engineering Exam
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