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Applications in Engineering Mechanics
  • Level Foundation
  • المدة 16 ساعات hours
  • الطبع بواسطة Georgia Institute of Technology
  • Offered by

عن

This course applies principles learned in my course “Introduction to Engineering Mechanics” to analyze real world engineering structures. You will need to have mastered the engineering fundamentals from that class in order to be successful in this course offering. This course addresses the modeling and analysis of static equilibrium problems with an emphasis on real world engineering systems and problem solving. --------------------------- Recommended Background: You will need to have successfully completed my earlier course “Introduction to Engineering Mechanics” in order to be successful in this course. --------------------------- 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.

الوحدات

Course Introduction and Review of "Introduction to Engineering Mechanics"

    • 2 Videos
    • 5 Readings
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2 Videos

  • Course Introduction and Topics
  • Module 2: Equilibrium Equations – Review from the course “Introduction to Engineering Mechanics”

5 Readings

  • Syllabus
  • Consent Form
  • Pdf Version of Course Introduction and Topics
  • Get More from Georgia Tech
  • Pdf Version of Module 2: Equilibrium Equations – Review from the course “Introduction to Engineering Mechanics” Lecture

Applications of the Equations of Static Equilibrium to Interacting Bodies or Parts of a Structure; Systems Containing Multi-force Members; Frames and Machines

    • 3 Videos
    • 6 Readings
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3 Videos

  • Module 3: 2-Force Members and Multi-force Members; Introduction to Frames and Machines
  • Module 4: Frame Structures
  • Module 5: Machine Structures

6 Readings

  • Pdf Version of Module 3: 2-Force Members and Multi-force Members; Introduction to Frames and Machines Lecture
  • Worksheet Solutions: 2-Force Members and Multi-force Members; Introduction to Frames and Machines
  • Pdf Version of Module 4: Frame Structures Lecture
  • Worksheet Solutions: Frame Structures
  • Pdf Version of Module 5: Machine Structures Lecture
  • Worksheet Solutions: Machine Structures

Quiz

    • 2 Readings
    • 1 Assignment
Show info about module content

1 Assignment

  • Applications of the Equations of Static Equilibrium to Interacting Bodies or Parts of a Structure; Systems Containing Multi-force Members; Frames and Machines

2 Readings

  • Practice Problems
  • Solution of Quiz 1

Plane Trusses

    • 5 Videos
    • 9 Readings
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5 Videos

  • Module 6: Introduction - Truss Structures
  • Module 7: Truss Structures - Method of Joints
  • Module 8: Truss Structures - Method of Sections
  • Module 9: Truss Structures - Method of Sections (cont.)
  • Module 10: Truss Structures - Zero Force Members

9 Readings

  • Pdf Version of Module 6: Introduction - Truss Structures Lecture
  • Pdf Version of Module 7: Truss Structures - Method of Joints Lecture
  • Worksheet Solutions: Truss Structures - Method of Joints
  • Pdf Version of Module 8: Truss Structures - Method of Sections Lecture
  • Pdf Version of Module 9: Truss Structures - Method of Sections (cont.) Lecture
  • Worksheet Solutions: Truss Structures - Method of Sections
  • Pdf Version of Module 10: Truss Structures - Zero Force Members Lecture
  • Worksheet Solutions: Truss Structures - Zero Force Members
  • Earn a Georgia Tech Badge/Certificate/CEUs

Quiz

    • 2 Readings
    • 1 Assignment
Show info about module content

1 Assignment

  • Plane Trusses

2 Readings

  • Practice Problems
  • Solution of Quiz 2

Space Trusses; Shear Force and Bending Moment Diagrams

    • 7 Videos
    • 9 Readings
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7 Videos

  • Module 11: Space Trusses
  • Module 12: Space Trusses (cont.)
  • Module 13: Space Trusses (cont.)
  • Module 14: Introduction – Shear Force and Bending Moment Diagrams
  • Module 15: Shear Force Diagrams
  • Module 16: Bending Moment Diagrams
  • Module 17: Shear Force and Bending Moment Diagrams – Examples

9 Readings

  • Pdf Version of Module 11: Space Trusses Lecture
  • Pdf Version of Module 12: Space Trusses (cont.) Lecture
  • Pdf Version of Module 13: Space Trusses (cont.) Lecture
  • Worksheet Solutions: Space Trusses
  • Pdf Version of Module 14: Introduction – Shear Force and Bending Moment Diagrams Lecture
  • Pdf Version of Module 15: Shear Force Diagrams Lecture
  • Pdf Version of Module 16: Bending Moment Diagrams Lecture
  • Pdf Version of Module 17: Shear Force and Bending Moment Diagrams – Examples Lecture
  • Worksheet Solutions: Shear Force and Bending Moment Diagrams - Examples

Quiz

    • 2 Readings
    • 1 Assignment
Show info about module content

1 Assignment

  • Space Trusses; Shear Force and Bending Moment Diagrams

2 Readings

  • Practice Problems
  • Solution of Quiz 3

Cable Support Systems

    • 5 Videos
    • 6 Readings
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5 Videos

  • Module 18: Introduction – Cable Support Systems
  • Module 19: Cable Support Systems - Concentrated Loads
  • Module 20: Cable Support Systems - Concentrated Loads (cont.)
  • Module 21: Cable Support Systems - Concentrated Loads (cont.)
  • Module 22: Cable Support Systems – Suspension Loads

6 Readings

  • Pdf Version of Module 18: Introduction – Cable Support Systems Lecture
  • Pdf Vresion of Module 19: Cable Support Systems - Concentrated Loads Lecture
  • Pdf Version of Module 20: Cable Support Systems - Concentrated Loads (cont.) Lecture
  • Pdf Version of Module 21: Cable Support Systems - Concentrated Loads (cont.) Lecture
  • Worksheet Solutions: Cable Support Systems - Suspension Loads
  • Pdf Version of Module 22: Cable Support Systems – Suspension Loads Lecture

Quiz

    • 2 Readings
    • 1 Assignment
Show info about module content

1 Assignment

  • Cable Support Systems

2 Readings

  • Practice Problems
  • Solution of Quiz 4

Coulomb Friction and Belt Friction

    • 7 Videos
    • 9 Readings
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7 Videos

  • Module 23: Introduction – Coulomb Friction
  • Module 24: Coulomb Friction (cont.)
  • Module 25: Coulomb Friction (cont.)
  • Module 26: Coulomb Friction (cont.)
  • Module 27: Coulomb Friction (cont.)
  • Module 28: Belt Friction
  • Module 29: Belt Friction - Examples

9 Readings

  • Pdf Version of Module 23: Introduction – Coulomb Friction Lecture
  • Pdf Version of Module 24: Coulomb Friction (cont.) Lecture
  • Worksheet Solutions: Coulomb Friction
  • Pdf Version of Module 25: Coulomb Friction (cont.) Lecture
  • Pdf Version of Module 26: Coulomb Friction (cont.) Lecture
  • Pdf Version of Module 27: Coulomb Friction (cont.) Lecture
  • Pdf Version of Module 28: Belt Friction Lecture
  • Pdf Version of Module 29: Belt Friction - Examples Lecture
  • Where to go from here?

Course Wrap-up

    • 1 Videos
    • 1 Readings
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1 Videos

  • Module 30: Course Wrap-up

1 Readings

  • Pdf Version of Module 30: Course Wrap-up Lecture

Quiz

    • 2 Readings
    • 1 Assignment
Show info about module content

1 Assignment

  • Coulomb Friction and Belt Friction

2 Readings

  • Practice Problems
  • Solution of Quiz 5

Auto Summary

"Applications in Engineering Mechanics" is a specialized course designed for learners with a foundational understanding of engineering mechanics. Offered through Coursera, this course builds on the principles covered in "Introduction to Engineering Mechanics," requiring students to have successfully completed the prior course to tackle the advanced concepts presented here. Taught by the experienced Dr. Wayne Whiteman, the course delves into the modeling and analysis of static equilibrium problems, emphasizing practical problem-solving skills in real-world engineering structures. It is tailored for those in the Science & Engineering domain, particularly individuals seeking to deepen their understanding of engineering mechanics. With a comprehensive duration of 960 minutes, the course is structured to provide a thorough exploration of the subject matter. Learners can subscribe through either the Starter or Professional options, making it accessible for different levels of commitment and professional development needs. Targeted at foundation-level students and professionals aiming to enhance their engineering expertise, "Applications in Engineering Mechanics" offers a blend of theoretical knowledge and practical applications, ensuring participants are well-equipped to apply these skills in their careers.

Dr. Wayne Whiteman, PE
Instructor

Dr. Wayne Whiteman, PE