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Excellent explanation, I couldn't get it through my head now I do.
The best explanation so far...
only video to clearly explain this, thank you
unreal video! thank you!
thank you for providing the excellent video. is there any video in a series.
Thank you. Excellent video indeed.
Excellent explanation, wow!
how beautiful!
thank you very much. Very basic concepts to understand kelvin voigt model
Thanks a lot
Extremely obvious explanation.. thanks a lot ❤
amazing, thank you
Thank you!!!
Thank you
Thank you😍😊😊
Thanks for the video!
wow, amazing explanation!
Thanks!! Great explanation
Thanks!! :)
Best video ever
answered all my quentions thanks
Is there a same type of explanation for the Neo-Hookean hyperelastic model?
Beautifull explanation.
excellent video
Very well explained
This works to explain Creep in biomechanics
The last one is the Burger's rheology model. Thank you very much
What do you mean by "the last one"? There is just the one model discussed in this video, right?
great thanks alot
Easy to understand
Only after seeing this video I could understand the meaning behind the profiles of deformation. Please can you send me the source of this videos?
cool
here from Dr. P :)
nice explanation..
May I ask - is dashpot filled by viscous liquid or just moves slowly due to friction upon contact with walls?
Supposed to be filled up with non Newtonian liquid with known viscosity at rest
A dashpot is full of a purely viscous fluid
BME-sek pacsi ✌️💪
hahahahaha, thank so so so much
Why would we call it "viscoelastic" deformation if there is a permanent deformation at the end? It should be named plastic.. and i think it is "viscoplastic" deformation instead of viscous_elastic, but i might be wrong
Kai re
Now you call this a car suspension.
![[UNCUT] ฝันรักห้วงนิทรา | EP.8 (4/4)](http://i.ytimg.com/vi/RDYJYiDwsj0/mqdefault.jpg)
Excellent explanation, I couldn't get it through my head now I do.
The best explanation so far...
only video to clearly explain this, thank you
unreal video! thank you!
thank you for providing the excellent video. is there any video in a series.
Thank you. Excellent video indeed.
Excellent explanation, wow!
how beautiful!
thank you very much. Very basic concepts to understand kelvin voigt model
Thanks a lot
Extremely obvious explanation.. thanks a lot ❤
amazing, thank you
Thank you!!!
Thank you
Thank you😍😊😊
Thanks for the video!
wow, amazing explanation!
Thanks!! Great explanation
Thanks!! :)
Best video ever
answered all my quentions thanks
Is there a same type of explanation for the Neo-Hookean hyperelastic model?
Beautifull explanation.
excellent video
Very well explained
This works to explain Creep in biomechanics
The last one is the Burger's rheology model. Thank you very much
What do you mean by "the last one"? There is just the one model discussed in this video, right?
great thanks alot
Easy to understand
Only after seeing this video I could understand the meaning behind the profiles of deformation. Please can you send me the source of this videos?
cool
here from Dr. P :)
nice explanation..
May I ask - is dashpot filled by viscous liquid or just moves slowly due to friction upon contact with walls?
Supposed to be filled up with non Newtonian liquid with known viscosity at rest
A dashpot is full of a purely viscous fluid
BME-sek pacsi ✌️💪
hahahahaha, thank so so so much
Why would we call it "viscoelastic" deformation if there is a permanent deformation at the end? It should be named plastic.. and i think it is "viscoplastic" deformation instead of viscous_elastic, but i might be wrong
Kai re
Now you call this a car suspension.