3. Rheological Behavior of Fluids
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- Опубліковано 5 лют 2025
- This collection of videos was created about half a century ago to explain fluid mechanics in an accessible way for undergraduate engineering and physics students. I find that no other series of videos has explained the basics of fluid mechanics better than this one by the National Committee for Fluid Mechanics (those national committees gotta be good for something...)
As such, I have uploaded these videos here for the benefit of students and interested laypersons. I do not own the copyright and these videos were not made by me. If anyone should want me to take them down, I will comply without complaint.
If you want scans of the printed notes that go along with these videos, check out them out over at the MIT side of things: web.mit.edu/hml.... They are really great stuff.
Experiments:
1:19 Nonslip BC
2:24 Silly putty
2:48 Elastic PVA solution
3:18 Mayonnaise
3:36 Clay suspension in a funnel (yield stress)
5:46 PVA solution x honey
6:15 Deformed silly putty
6:20 Silly putty bouncing
6:45 Deforming silly putty (fast forward)
7:10 Steel ball dropped in a high polymer solution
7:35 Memory effect in a high polymer solution "step deformation experiment"
9:00 Concentric cylinder constant torque experiment and memory (Newtonian x viscoelastic)
10:20 Constant torque and release experiment high polymer "creep-recovery"
11:31 Water x pseudoplastic fluid flow under hydrostatic pressure
13:10 Water x dilatant fluid flow under hydrostatic pressure
13:58 Flow profile in a tube
14:28 Weisserberg effect
15:21 Normal and static pressure measurement
17:03 Normal and static pressure measurement in rotating a disk
20:00 Barus effect
20:30 Ball spinning in a non-newtonian fluid
21:00 Summary of experiments
Subjects ( from ua-cam.com/video/YoyJIUc-mpI/v-deo.html)
00:00 - Introduction
3:22 - Yield Value
4:40 - The Memory Fluid Model
5:43 - Dependence on History
11:02 - Non-linearity and Shear Stresses
14:19 - Non-linearity and Normal Stresses
19:31 - Other Flows
20:52 - Conclusion
thank you !
These videos are still today invaluable teaching tools. Thank you for uploading.
before praising about this video i would like to thank barry for doing such a generous job.this video helped me and also will help any one who has the interest to learn such things.Even though this is filmed before decades,it gave me a clear perception..i had also gone through other videos uploaded by u.Pls consider this post as expression of my gratitude.
OMG
At 2:00 minutes he talks while his attention is turned to the blackboard!
How genuinely humble. What a cool technique! You don't see this on a Vsauce video ever.
What a great video. I did my PhD thesis (1970) on the climbing effect in non-Newtonian fluids and how it was related to the material properties of the fluid at the University of Colorado.
Allen Hoffman
This should have been done at the college of textiles at NC State. I'm learning that my school wasn't as good as they told me it was...
after i watched this video, my insight is very open because the video is very good to give information was created about half a century ago to explain fluid mechanics in an accessible way for undergraduate engineering and physics students
If my teacher were really interested on giving us a real learning they would have done something like this to give clear examples
I think this is supposed to be supplemental to an in-person curriculum. Few teachers then or now would be able to get their hands on so many of these materials and experiments all in one place, so they use the video to inspire the kids (and you and me!) and explain in detail afterwards.
Lecture notes are available on the National Committee for Fluid Mechanics Films web page hosted by MIT.
Came here for structural geology and it works just as well in explaining my field. Thanks!
Thanks Barry for uploading this Oldscool Awesome material!
Wonderful explanation.
Very cool video.❤
2:43 Please, could you tell me what polymer solution is it?
because of the volumetric flow rate Q, which can be expressed independently of any constitutive equation as follows (
Hi everyone, assuming a shear stress mode, what is the moving plate and stationary plate?
excellent, I will be using this video to better explain fluid rheology behaviour to my fellow drilling new grads in future training sessions.
wow..this makes physics really easy..
Perfect tutorial. Thanks
I'm watching these videos and they are interesting. The only problem I see with them is that even though the experiments look nice, nobody gives any explanation on why a certain behaviour is achieved… Is this the way of teaching in the US or is it just these videos?
These videos are not intended for that or tests, but rather give you an insight on the nature of fluids through series of experiments.
Can you make a video on rheologlcal properties of fluids
lovely and useful
does anyone know where you can get notes on this lecture or a manual explaining the apparatus used around 8:20? I'm trying to do it for a physics final lab project and wanted some more information (articles, journal entries, lab manuals, etc.)
web.mit.edu/hml/ncfmf.html (given in the description)
Muy interesante video, trata temas muy importantes como lo que son los fluidos newtonianos, elasticidad y la viscosidad de ciertos fluidos y además menciona el significado de la reología la cual es el estudio de la relación entre la fuerza y la deformación en medios.
También muestra algunos experimentos bastantes interesantes referentes al comportamiento de algunos fluidos cuando se les someten a ciertas condiciones y como identificar las características que tienen algunos fluidos como su elasticidad o su viscosidad así también como su tención.
Dhaneywad.(thanks)
Prof. Hugo Melendez me trouxe aqui ¬¬
thanks sir
Thanks!
Rocketry 🙏❤️
nice
I'm watching anime and also a vid about rheology that recorded 70 years ago. Life is strange guys
Thank u !
PLUNK!
(ball)
martians are smart
@369malign
nice