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Dr. Wayne Whiteman, PE

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

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

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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.

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What's inside

Syllabus

Welcome
Deflections and Statically Indeterminate Beam Structures
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
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Column Buckling, Combined Loading, & Failure Theories
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.

Good to know

Know what's good
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Explores deflections, statically indeterminate beam structures, column buckling, combined loading, and failure theories in mechanics of materials
Taught by Dr. Wayne Whiteman, an experienced professional engineer
Carries practical significance for industry professionals in engineering

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Reviews summary

Well-received mechanics course

Learners say this well-received Mechanics of Materials course is largely positive, with many praising the engaging lectures, helpful examples, and supportive instructor. Learners mention that the course is a good review of the subject, and helpful for learning or refreshing knowledge of this subject. The course materials are easy to understand, and learners appreciate the practical applications and real-world examples provided. Many learners highly recommend this course to others.
Learners mention that the course is a good review of the subject.
"Excellent course. it is a good opportunity to learn or refresh this subject."
"I highly recommend the series of Mechanical Engineering courses offered by Dr. Whiteman. The courses are self contained if taken in order, and all the theorems given are developed in the class, no formulas are thrown at you, so you can understand where the formulas come from and how to apply them."
"I have used what I learned here to study further engineering structures, for example, I am interested in the construction of Renaissance cathedrals, and applied what I learned to better understanding how they were built."
The instructor is highly praised.
"Dr. Wayne Whiteman,"
"Very good course from one of the best instructors"
"Dr Wayne is very good in delivering his classes."
The lectures are clear and engaging.
"Very good course for self-learning. A lot of work put into videos and corresponding material, so it's comfortable to learn at speed."
"I loved your explanations"
"I loved this course. Professor Whiteman is one of the best professors i've had a Georgia Tech. The flipped classroom setting is amazing in my opinion since more of the class time is spent applying the concepts we learn from the videos."
The examples are helpful and relevant.
"Excellent course. Prof Whiteman provides worked examples that help with learning and the quiz problems."
"Excellent course. Helped me to remember and understand what I studied at the university course many years ago. Now this knowledge is again in the front of my brain."
"I am a retired engineer who worked as a structural/mechanical engineer for 40 years and was curious to see how subjects were currently being taught at a top school. I have taken the full series of Dr. Whiteman's courses."
The course includes practical applications and real-world examples.
"Dr. Whiteman is a very good teacher, he makes the complicated physics easy to understand and relate it with real life examples and equipment, which makes the class very interesting."
"The courses are self contained if taken in order, and all the theorems given are developed in the class, no formulas are thrown at you, so you can understand where the formulas come from and how to apply them."
"There are well developed and relevant examples in the lessons, often taken from real life engineering problems."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories with these activities:
Review Vector Mechanics
Review the concept of vector mechanics, to ensure understanding of the course concepts from the very beginning.
Show steps
  • Read your old notes or textbooks on vector mechanics
  • Solve practice problems related to vector mechanics
Read 'Mechanics of Materials' by Gere and Timoshenko
Review the concepts of mechanics of materials in more depth by reading a classic textbook on the subject.
Show steps
  • Read the assigned chapters from the book
  • Take notes on the key concepts
  • Solve the practice problems at the end of each chapter
Solve Mechanics of Materials Practice Problems
Practice solving mechanics of materials problems to reinforce your understanding of the concepts
Browse courses on Mechanics of Materials
Show steps
  • Find practice problems from textbooks or online resources
  • Solve the problems using the concepts learned in class
  • Check your solutions against the provided answer key or consult with your instructor
Five other activities
Expand to see all activities and additional details
Show all eight activities
Follow Online Tutorials on Buckling Analysis
Enhance your understanding of buckling analysis by following online tutorials dedicated to the topic.
Show steps
  • Search for online tutorials on buckling analysis
  • Watch the tutorials and take notes on the key concepts
  • Apply the concepts learned in the tutorials to solve practice problems
Attend a Workshop on Finite Element Analysis
Gain hands-on experience with finite element analysis, a powerful tool for analyzing the behavior of structures.
Browse courses on Finite Element Analysis
Show steps
  • Find a workshop on finite element analysis
  • Register for the workshop
  • Attend the workshop and participate actively
  • Apply the concepts learned in the workshop to your own projects
Design a Structural Element
Apply your knowledge of mechanics of materials to design a structural element, allowing you to see the practical applications of the concepts
Browse courses on Structural Design
Show steps
  • Choose a structural element to design, such as a beam, column, or truss
  • Determine the loads and boundary conditions that the element will be subjected to
  • Calculate the stresses and deflections in the element using the concepts learned in class
  • Optimize the design of the element to meet the required performance criteria
  • Create a technical report that documents your design process and results
Tutor a Junior Student in Mechanics of Materials
Reinforce your understanding of mechanics of materials by teaching the concepts to a junior student.
Browse courses on Mechanics of Materials
Show steps
  • Find a junior student who is struggling with mechanics of materials
  • Offer to tutor the student on a regular basis
  • Review the concepts of mechanics of materials with the student
  • Help the student solve practice problems
Contribute to an Open-Source FEA Project
Gain practical experience with finite element analysis and contribute to the open-source community.
Browse courses on Finite Element Analysis
Show steps
  • Find an open-source FEA project on platforms like GitHub
  • Review the project documentation and identify areas where you can contribute
  • Make changes to the code or documentation and submit a pull request
  • Collaborate with other contributors to improve the project

Career center

Learners who complete Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories will develop knowledge and skills that may be useful to these careers:
Structural Engineer
Structural Engineers design and oversee the building of structures that are safe and can withstand the destructive power of natural disasters such as earthquakes and hurricanes. The knowledge acquired in this course may assist you in understanding how structures respond to stress and strain. It can help you analyze the stability of structures and design them to withstand various loadings which is essential knowledge for Structural Engineers.
Civil Engineer
Civil Engineers plan, design, and oversee the construction of infrastructure projects, including roads, bridges, and buildings. This course can help Civil Engineers learn how to analyze the strength and stability of structures and the forces that act upon them which is essential knowledge for Civil Engineers.
Mechanical Engineer
Mechanical Engineers design, build, and maintain mechanical systems, including engines, machinery, and robotics. The knowledge acquired in this course will help build a foundation for Mechanical Engineers to understand how mechanical systems respond to loads and stresses and how to design them for optimal performance. Additionally, this course covers topics such as buckling and failure theories, which are important considerations for designing safe and efficient mechanical systems.
Aerospace Engineer
Aerospace Engineers design, develop, and test aircraft, spacecraft, and other related systems. This course will help build a foundation for Aerospace Engineers to understand how aircraft and spacecraft structures respond to stress and strain. It can also assist in the analysis of the stability of these structures and how to design them to withstand various loadings which is crucial knowledge for Aerospace Engineers.
Materials Scientist
Materials Scientists research and develop new materials for various applications, including construction, electronics, and healthcare. This course can help Materials Scientists understand how materials behave under different types of stress and strain which is essential knowledge for designing new materials with optimal properties.
Architect
Architects design and oversee the construction of buildings and other structures. This course may be useful for Architects to understand how structures respond to different types of stress and strain. It can assist them in designing buildings and structures that are safe and can withstand various loadings. This is important knowledge for Architects so that they can design buildings that are safe and habitable.
Construction Manager
Construction Managers oversee the construction of buildings and other structures. This course may be useful for Construction Managers to understand how structures respond to different types of stress and strain. It can assist them in understanding the structural integrity of buildings and in managing the construction process to ensure that buildings are built to code and are safe.
Structural Analyst
Structural Analysts analyze the behavior of structures under various loadings. This course will help build a foundation for Structural Analysts to understand how structures respond to stress and strain and in predicting how they will behave under different loading conditions.
Geotechnical Engineer
Geotechnical Engineers design and oversee the construction of foundations and other structures that interact with the ground. This course may help Geotechnical Engineers learn how to analyze the stability of slopes, retaining walls, and other geotechnical structures and how to design them for optimal performance.
Forensic Engineer
Forensic Engineers investigate the causes of failures and accidents related to structures and materials. This course may provide Forensic Engineers with a foundation to understand how structures respond to stress and strain and how to analyze the causes of structural failures.
Product Designer
Product Designers design and develop new products, including consumer products, medical devices, and industrial equipment. This course may be useful for Product Designers to understand how products respond to different types of stress and strain. It can help them design products that are safe and can withstand various loadings which is crucial knowledge for Product Designers to ensure the safety and quality of their products.
Manufacturing Engineer
Manufacturing Engineers develop and oversee the production of products, including consumer products, medical devices, and industrial equipment. This course may be useful for Manufacturing Engineers to understand how products respond to different types of stress and strain. It can help them optimize the manufacturing process and ensure the quality of the final product which can be crucial knowledge for Manufacturing Engineers to ensure the efficiency and productivity of the manufacturing process.
Biomedical Engineer
Biomedical Engineers design and develop medical devices and systems. This course may provide Biomedical Engineers with a foundation to understand how biomedical devices and systems respond to stress and strain which is important knowledge for designing safe and effective medical devices and systems.
Quality Assurance Engineer
Quality Assurance Engineers ensure the quality of products and processes. This course may be useful for Quality Assurance Engineers to understand how products respond to different types of stress and strain. It can help them develop and implement quality control procedures and ensure the quality of products which is essential knowledge for Quality Assurance Engineers to ensure the quality and safety of products.
Environmental Engineer
Environmental Engineers design and oversee the construction of environmental systems, including water treatment plants and waste disposal facilities. This course may be useful for Environmental Engineers to understand how environmental systems respond to different types of stress and strain. It can help them design systems that are safe and can withstand various loadings which is important knowledge for Environmental Engineers to ensure the safety and effectiveness of environmental systems.

Reading list

We've selected nine books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories.
Provides a comprehensive review of the theory of elasticity and its applications in engineering. It valuable resource for students and practitioners who want to gain a deeper understanding of the mechanics of materials.
Classic textbook on the theory of elasticity. It valuable resource for students and practitioners who want to gain a deeper understanding of the subject.
Comprehensive reference for students and practitioners who want to learn about advanced strength and applied elasticity.
Valuable resource for students and practitioners who want to learn about the applications of elasticity in engineering mechanics.
This classic textbook on mechanics of materials. It valuable resource for students and practitioners who want to learn the fundamentals of the subject.
Is an introductory textbook on mechanics of materials. It valuable resource for students who are new to the subject.
Valuable reference for engineers who need to solve problems related to stress and strain. It contains a vast collection of formulas and tables that can be used to analyze and design engineering structures.
Comprehensive reference for mechanical engineers. It covers a wide range of topics, including mechanics of materials, machine design, and failure analysis.

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