Non-Newtonian Fluids, part 3 - Lecture 1.7 - Chemical Engineering Fluid Mechanics
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- Опубліковано 28 вер 2024
- The power law model of shear thinning behavior.
[NOTE: Closed captioning is not yet available for this video. Check back soon for updates.]
This video is part of a series of screencast lectures presenting content from an undergraduate-level fluid mechanics course in the Artie McFerrin Department of Chemical Engineering at Texas A&M University (College Station, TX, USA).
The screencasts have been prepared in 720p HD with accompanying closed captioning for enhanced accessibility.
My inspiration for producing this series of videos has been my lifelong personal journey to understand fluid mechanics and explain its beauty to others in a straightforward way. I have received no external support for this project...the effort is purely a labor of love.
I would like to acknowledge Aashish Priye and Jamison Chang for assistance in developing the materials and preparing the captioning.
Please feel free to share any comments or suggestions.
Best wishes,
Victor Ugaz
thank u sir----pls solve some problems in non newtonian fluids
Did you use apparent viscosity and shear rate or the true vales??
Thank you, sir. I really want to study with you. your videos are such the best video. i'm sorry. my english is so poor.
Thank You . It was very helpful.
Chris cramer came as a servant of science. Christer came as a chomo in the flesh.
thanks heaps
Chris cramer taught me how to educate society about christers child sex realism.
Christ wants us to suffer the sin of withdrawals so help us god.
And christ wants us to suffer for his names sake.
Christ wants us to be sober minded!
My homework for Sam revolinski and friends is to model the separations process for removing smoke and vapor from the human lung.
My homework for my students is to identify 5 different types of heat exchangers at Dillons.
Texas has too many Chemical Engineers & that’s nice ... I’m from Mexico! Im studying this :)
Can you explain the limitations of power law and other complex model for the polymer rheology?
Thanks for your informative video... Accept my gratitude
Very interesting. Thank you for creating and posting.