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Quick Facts

Medium Of Instructions	Mode Of Learning	Mode Of Delivery
English	Self Study	Video and Text Based

Course Overview

The Mechanics of Materials III: Beam Bending Certification Course is a 100% online course that provides knowledge of beam bending along with its analysis and design. The course instructor of this certification course is Wayne Whiteman, PE, a Senior Academic Professional at the Woodruff School of Mechanical Engineering. The course allows learners to set flexible deadlines and proceed according to their pace.

The Mechanics of Materials III: Beam Bending Training is offered by the Georgia Institute of Technology. The course will be taught through video lectures, reading materials, and practice exercises to test the knowledge of learners. Once all the course steps are fulfilled and the assessments are completed, learners will get the Mechanics of Materials III: Beam Bending Certification by Coursera.

The Highlights

Shareable certificate
Flexible deadlines
100% online
13 study hours
Video lectures
Practice exercises
Academic readings
Graded assignments
Peer feedback
English medium
Financial aid
Subtitles in English, Arabic, French, Portuguese (European), Italian, Vietnamese, German, Russian, Spanish.

Programme Offerings

Shareable Certificate
Flexible Deadlines
100% Online
English medium
English Subtitles
13 Study Hours
financial aid
video lectures
Practice Exercises
Academic Readings
Graded Assignments
peer feedback.

Courses and Certificate Fees

Fees Informations	Certificate Availability	Certificate Providing Authority
INR 2436	yes	Coursera

The fees for the course Mechanics of Materials III: Beam Bending is -

Head	Amount
Certificate fees	Rs. 2436

Eligibility Criteria

Candidates should have completed the course “Mechanics of Materials I: Fundamentals of Stress and Strain and Axial Loading” to be able to learn the contents of this course.

What you will learn

Mechanical skills

After completing the Mechanics of Materials III: Beam Bending Certification Classes, you will learn about the following topics:

Shear force
Bending moment diagrams
Elastic beam bending
Analysis of elastic beam bending
Inelastic beam bending
Design of inelastic beam bending
Beams used for real-world engineering structures

Who it is for

The Mechanics of Materials III: Beam Bending Course is can be opted by anyone interested in learning the mechanics of materials.

Admission Details

Follow the given steps to enroll in the Mechanics of Materials III: Beam Bending Online Course:

Step 1: Click on the URL given below -

https://www.coursera.org/learn/beam-bending

Step 2: Click on the “Enroll for Free” option and choose the desired option.

Step 3: Fill in the required details and complete the process.

The Syllabus

Videos

Course Introduction

Readings

Course Syllabus
Consent Form
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Videos

Module 1 - General Analysis Approach
Module 2 -Real-World Beam Bending Examples
Module 3 – Introduction – Shear Force and Bending Moment Diagrams
Module 4 – Shear Force Diagrams
Module 5 – Bending Moment Diagrams
Module 6 – Shear Force and Bending Moment Diagram Examples

Readings

Download PDF format Module 1
Download PDF format Module 2
Download PDF format Module 3
Download PDF format Module 4
Download PDF format Module 5
Download PDF format Module 6
Worksheet Solution : Module 6 – Shear Force and Bending Moment Diagrams
Earn a Georgia Tech Badge/Certificate/CEUs
Solution to Quiz 1

Practice Exercise

Quiz

Videos

Module 7 – Strain-Curvature relationship
Module 8 – Locate Neutral Axis/Surface
Module 9 – Moment-Curvature relationship
Module 10 – Elastic flexural formula
Module 11 – Area moment of inertia
Module 12 – Section modulus
Module 13 – Solve an elastic beam bending problem
Module 14 - Solve an elastic beam bending problem (cont.)
Module 15 – Solve an elastic beam bending problem (cont.)

Readings

Download PDF format Module 7
Download PDF format Module 8
Download PDF format Module 9
Download PDF format Module 10
Download PDF format Module 11
Download PDF format Module 12
Download PDF format Module 13
Download PDF format Module 14
Download PDF format Module 15
Solution to Quiz 2

Practice Exercise

Quiz 2

Videos

Module 16 – Define inelastic beam bending for symmetric cross sections
Module 17 – Define inelastic beam bending for unsymmetrical cross sections
Module 18 – Solve an inelastic beam bending problem for symmetric cross sections
Module 19 – Solve an inelastic beam bending problem for symmetric cross sections (cont.)
Module 20 – Solve an inelastic beam bending problem for symmetric cross sections (cont.)
Module 21 – Solve an inelastic beam bending problem for unsymmetrical cross sections
Module 22 – Solve an inelastic beam bending problem for unsymmetrical cross sections (cont.)

Readings

Download PDF format Module 16
Download PDF format Module 17
Download PDF format Module 18
Download PDF format Module 19
Download PDF format Module 20
Download PDF format Module 21
Download PDF format Module 22
Solution to Quiz 3

Practice Exercise

Quiz 3

Videos

Module 23 – Derive expression for shear stress in beams subjected to non-uniform loading
Module 24 – First moment of outward area
Module 25 – Solve a shear stress problem in a beam subjected to non-uniform loading
Module 26 - Solve a shear stress problem in a beam subjected to non-uniform loading (cont.)