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Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories

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Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories

Instructor: Dr. Wayne Whiteman, PE

32,220 already enrolled

3 modules

Gain insight into a topic and learn the fundamentals.

807 reviews

Intermediate level

Some related experience required

Flexible schedule

8 hours to complete

Learn at your own pace

99%

Most learners liked this course

3 modules

Gain insight into a topic and learn the fundamentals.

807 reviews

Intermediate level

Some related experience required

Flexible schedule

8 hours to complete

Learn at your own pace

99%

Most learners liked this course

Skills you'll gain

Details to know

Shareable certificate

Add to your LinkedIn profile

Assessments

2 assignments

Taught in English

91%

of learners achieved a positive career outcome

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There are 3 modules in this course

This course explores the analysis and design of engineering structures considering factors of deflection, buckling, combined loading, & failure theories

------------------------------------------------- The copyright of all content and materials in this course are owned by either the Georgia Tech Research Corporation or Dr. Wayne Whiteman. By participating in the course or using the content or materials, whether in whole or in part, you agree that you may download and use any content and/or material in this course for your own personal, non-commercial use only in a manner consistent with a student of any academic course. Any other use of the content and materials, including use by other academic universities or entities, is prohibited without express written permission of the Georgia Tech Research Corporation. Interested parties may contact Dr. Wayne Whiteman directly for information regarding the procedure to obtain a non-exclusive license.

Module details

What's included

1 video3 readings

In this section, we will learn how calculate the deflections, or deformations, of engineering structures subjected to loads. We will then use those techniques is solving statically indeterminate beam problems

What's included

13 videos15 readings1 assignment

13 videosTotal 64 minutes

Module 1: General Analysis Approach2 minutes
Module 2: Differential Equation for the elastic curve of a beam4 minutes
Module 3: Deflection of a simply supported beam with a concentrated load at the center7 minutes
Module 4: Double Integration Method to determine beam deflections5 minutes
Module 5: Double Integration Method – Simply supported beam with a moment applied to an end6 minutes
Module 6: Define Singularity Functions3 minutes
Module 7: Employing Singularity Functions for Beam Deflection Problems9 minutes
Module 8: Solve for the deflection of a real-world engineering problem using Singularity Functions8 minutes
Module 9: Determine beam deflections by superposition4 minutes
Module 10: Solve for beam deflection by superposition techniques2 minutes
Module 11: Solve for beam deflection by superposition techniques (cont.)3 minutes
Module 12: Solve a statically indeterminate beam structure problem using superposition techniques6 minutes
Module 13: Solve a statically indeterminate beam structure problem using singularity functions5 minutes

15 readingsTotal 150 minutes

Download Pdf format Module 110 minutes
Download Pdf format Module 210 minutes
Download Pdf format Module 310 minutes
Download Pdf format Module 410 minutes
Download Pdf format Module 510 minutes
Download Pdf format Module 610 minutes
Download Pdf format Module 710 minutes
Download Pdf format Module 810 minutes
Download Pdf format Module 910 minutes
Download Pdf format Module 1010 minutes
Download Pdf format Module 1110 minutes
Download Pdf format Module 1210 minutes
Download Pdf format Module 1310 minutes
Quiz 1 Solution10 minutes
Earn a Georgia Tech Badge/Certificate/CEUs10 minutes

1 assignmentTotal 30 minutes

Quiz on Deflections and Statically Indeterminate Beam Structures30 minutes

In this section, we will learn how to analyze and design for column buckling. We will also learn how to analyze and design engineering structures subjected to combined loading. Finally, we will conclude with failure theories in mechanics of materials.

What's included

10 videos11 readings1 assignment

10 videosTotal 84 minutes

Module 14: Differential equation for column buckling6 minutes
Module 15: Critical buckling load for a column with pinned-pinned end conditions12 minutes
Module 16: Critical buckling load for columns with various end conditions3 minutes
Module 17: Solve a column buckling problem9 minutes
Module 18: Slenderness ratio for column buckling4 minutes
Module 19: Modes of Failure between yielding and buckling4 minutes
Module 20: Solve a column problem checking both yielding and buckling8 minutes
Module 21: Solve a combined static loading problem28 minutes
Module 22: Apply failure theories to a mechanics of materials problem7 minutes
Module 23: Course Conclusion3 minutes

11 readingsTotal 110 minutes

Download Pdf format Module 1410 minutes
Download Pdf format Module 1510 minutes
Download Pdf format Module 1610 minutes
Download Pdf format Module 1710 minutes
Download Pdf format Module 1810 minutes
Download Pdf format Module 1910 minutes
Download Pdf format Module 2010 minutes
Download Pdf format Module 2110 minutes
Download Pdf format Module 2210 minutes
Download Pdf format Module 2310 minutes
Quiz 2 Solution10 minutes

1 assignmentTotal 30 minutes

Quiz on Column Buckling, Combined Loading, & Failure Theories30 minutes

Instructor

Instructor ratings

(142 ratings)

Dr. Wayne Whiteman, PE

Georgia Institute of Technology

13 Courses464,248 learners

Offered by

Georgia Institute of Technology

Learner reviews

5 stars
83.27%
4 stars
14.25%
3 stars
1.85%
2 stars
0.24%
1 star
0.37%

Showing 3 of 807

Reviewed on Oct 27, 2019

After taking a long hiatus from this field (almost ten years!), these courses really helped me brush up on my past studies at university. Thanks Dr. Whiteman!

Reviewed on Jul 9, 2020

Very interesting topics are discussed here.It is very use full in understanding the load conditions of materials and failure phenomena. Thanks a lots for giving us this great opportunity....

Reviewed on Aug 28, 2019

This course is very useful for engineering professionals who may tackle this failure modes in industrial applications

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