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Quick Facts
| Medium Of Instructions | Mode Of Learning | Mode Of Delivery |
|---|---|---|
| English | Self Study | Video and Text Based |
Course Overview
A branch of mechanical engineering called mechanics of materials uses numerical simulations to study deformable solids. The property of an element to withstand actions and forces exerted without breaking, lasting deformation, or acquiring degradation is referred to as resistance. Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories certification course is designed by the Georgia Institute of Technology and taught by Dr. Wayne Whiteman - PE & Senior Academic Professional, which is made available through Coursera.
Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories online classes provides 8 hours of comprehensive lectures that aims to assist the participants in exploring the analysis and design of engineering structures taking into account the factors of combined loading, deflection, buckling, and failure theories. With Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories online course, participants will be taught about basic and advanced concepts like differential equations, double integration method, superposition, and singularity functions to study beam structure and mechanics of materials including loading, deflection, buckling, failure and more.
The Highlights
- Shareable certificate of completion
- Self-paced course
- 8 hours of effort
- 100% online content
- Flexible deadlines
Programme Offerings
- English video lectures with multiple subtitles
- 100% online content
- Learning resources
- practice quizzes
- Graded Assignments
- Accessible on mobile devices.
Courses and Certificate Fees
| Fees Informations | Certificate Availability | Certificate Providing Authority |
|---|---|---|
| INR 2436 | yes | Georgia TechCoursera |
Depending upon the number of hours required to complete the learning, the participants may choose from any of the following Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories certification fees mentioned in the table down below. All these structures include certificates after course completion
Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories Fee Structure
Description | Amount in INR |
Course fee | Rs. 2,436 |
Audit Mode | Free |
What you will learn
After completing the Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories online certification, participants will gather a thorough understanding of the principles of mechanical engineering and will master the concepts of material mechanics. Participants will explore concepts involved in beam structure like buckling, loading, deflection, failure, elastic curve, combined loading, column buckling, and beam deflection. Participants will learn about strategies involved with the double integration method, differential equation, singularity function, and superposition.
Who it is for
The Syllabus
Videos
- Course Introduction
Readings
- Course Syllabus
- Get More from Georgia Tech
- Consent Form
Videos
- Module 1: General Analysis Approach
- Module 2: Differential Equation for the elastic curve of a beam
- Module 3: Deflection of a simply supported beam with a concentrated load at the center
- Module 4: Double Integration Method to determine beam deflections
- Module 5: Double Integration Method – Simply supported beam with a moment applied to an end
- Module 6: Define Singularity Functions
- Module 7: Employing Singularity Functions for Beam Deflection Problems
- Module 8: Solve for the deflection of a real-world engineering problem using Singularity Functions
- Module 9: Determine beam deflections by superposition
- Module 10: Solve for beam deflection by superposition techniques
- Module 11: Solve for beam deflection by superposition techniques (cont.)
- Module 12: Solve a statically indeterminate beam structure problem using superposition techniques
- Module 13: Solve a statically indeterminate beam structure problem using singularity functions
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
- 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
- Quiz 1 Solution
- Earn a Georgia Tech Badge/Certificate/CEUs
Quiz
- Quiz on Deflections and Statically Indeterminate Beam Structures
Videos
- Module 14: Differential equation for column buckling
- Module 15: Critical buckling load for a column with pinned-pinned end conditions
- Module 16: Critical buckling load for columns with various end conditions
- Module 17: Solve a column buckling problem
- Module 18: Slenderness ratio for column buckling
- Module 19: Modes of Failure between yielding and buckling
- Module 20: Solve a column problem checking both yielding and buckling
- Module 21: Solve a combined static loading problem
- Module 22: Apply failure theories to a mechanics of materials problem
- Module 23: Course Conclusion
Readings
- Download Pdf format Module 14
- Download Pdf format Module 15
- 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
- Download Pdf format Module 23
- Quiz 2 Solution
Quiz
- Quiz on Column Buckling, Combined Loading, & Failure Theories