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Mechanics of Materials II: Thin-Walled Pressure Vessels and Torsion
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 9 hours to complete
This course explores the analysis and design of thin-walled pressure vessels and engineering structures subjected to torsion. The copyright of all content and materials in this course are owned by either the Georgia Tech Research Corporation or Dr. Course Syllabus Download PDF format Module 1 Download PDF format Module 2 Download PDF format Module 3...
Mechanics of Materials IV: Deflections, Buckling, Combined Loading & Failure Theories
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 8 hours to complete
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. Course Syllabus Download Pdf format Module 1 Download Pdf format Module 2...
Music Theory ABRSM Grade 3 Complete
by Victoria Williams LmusTCL BA(Mus)- 4.6
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1 hour on-demand video
*** UPDATED for the 2018 ABRSM Syllabus Changes *** The course includes: Reference materials include all the foreign terms you need for grade 3, including those learned at grades 1 and 2, as the syllabus is cumulative, plus complete examples of all scales in both treble and bass clefs....
$12.99
Mechanics of Materials III: Beam Bending
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 13 hours to complete
This course explores the analysis and design of beam bending problems. Prerequisite Knowledge: You will need to have successfully completed my earlier course “Mechanics of Materials I: Fundamentals of Stress and Strain and Axial Loading” in order to be successful in this course Course Introduction Course Syllabus Download PDF format Module 28...
Introduction to Engineering Mechanics
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 15 hours to complete
This course is an introduction to learning and applying the principles required to solve engineering mechanics problems. Concepts will be applied in this course from previous courses you have taken in basic math and physics. Module 1: Course Introduction PDF version of Course Introduction Powerpoint PDF version of course conclusion Powerpoint...
Applications in Engineering Mechanics
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 16 hours to complete
This course applies principles learned in my course “Introduction to Engineering Mechanics” to analyze real world engineering structures. Pdf Version of Course Introduction and Topics Pdf Version of Module 2: Equilibrium Equations – Review from the course “Introduction to Engineering Mechanics” Lecture Module 30: Course Wrap-up Pdf Version of Module 30: Course Wrap-up Lecture...
A Brief History of Human Spaceflight
by Dr. Chuck Layne- 4.4
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Approx. 21 hours to complete
This course provides a view of the history of spaceflight, from early writings telling of human's fascination of space through the early Russian and American space stations. Course Invitation Video Syllabus Unit 2 - pdf file Unit 3 - pdf file Unit 4 - pdf file Unit 6 - pdf file...
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Music Theory ABRSM Grade 2 Complete
by Victoria Williams LmusTCL BA(Mus)- 4.7
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1 hour on-demand video
*** UPDATED for the 2018 ABRSM Syllabus Changes *** This course is ideal if you are reasonably confident in reading simple music pieces, and would like to expand your knowledge into a deeper understanding of how music works. The course includes: The course uses both UK and USA note terminology (crotchet AND quarter note)....
$12.99
FRM Part II (2021): Liquidity Risk
- 3.8
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Take this Course on Liquidity Risk This course covers one of the readings in the FRM Part II syllabus, "Liquidity Risk". The instructor covers the syllabus in detail and where applicable, will illustrate how the calculations are done using the formula or in Excel spreadsheet. Course notes (in PDF form) Course videos...
Mechanics of Materials I: Fundamentals of Stress & Strain and Axial Loading
by Dr. Wayne Whiteman, PE- 4.8
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Approx. 18 hours to complete
This course explores the topic of solid objects subjected to stress and strain. The methods taught in the course are used to predict the response of engineering structures to various types of loading, and to analyze the vulnerability of these structures to various failure modes. Course Syllabus Download Pdf Format Module 46: Course Conclusion...
