The primary text for my videos on machine design is Shigley's Mechanical Engineering Design. This video is supplemented with additional content from structural vibrations textbooks. In particular, much of the additional material comes from 'Fundamentals of Vibrations' by Meirovitch. Thank you for asking!
Shigley's Mechanical Engineering Design. I am referring to case 5 from Table A-9 which is in the Appendix of the Shigley's book. The vibrations textbook I most often use is the one by Meirovitch: "Fundamentals of Vibrations", ISBN-13: 978-1577666912.
I referred this video to make a whirling shaft apparatus for our college lab. Thanks you for this.
Which books do you use for this topic??
The primary text for my videos on machine design is Shigley's Mechanical Engineering Design. This video is supplemented with additional content from structural vibrations textbooks. In particular, much of the additional material comes from 'Fundamentals of Vibrations' by Meirovitch. Thank you for asking!
What is the name of the textbook you refer to at 9:43?
Shigley's Mechanical Engineering Design. I am referring to case 5 from Table A-9 which is in the Appendix of the Shigley's book. The vibrations textbook I most often use is the one by Meirovitch: "Fundamentals of Vibrations", ISBN-13: 978-1577666912.
@@designimpact2178 thank you!
you missed the eccentricity "e" in the inertia force term (F=m*e*w^2)
You saw this missing "e" at 12:00?
These videos are excellent and the only videos on the subject .
In fact, the centrifugal force is m(e+y)w^2 and the restoring force is ky
@@aannaque makes way more sense this way for me too
The math here is so off. At 19:43 solving for neutral axis deflection is not the same equation as the one above it.
Fr = k*y, Fi = m*(y+e)*w^2
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