The statement at @5:59 is the opposite of what is true. Completely wrong! When the flow has lower velocities, this is viscous flow. Low Reynolds number = Viscous flow. When flow has high velocity, like the example of Mach 1+ speeds, then you can begin to assume inviscid flow. High Reynolds number = inviscid flow.
Of course! Viscosity is a property of any fluid. But some fluids can't go as fast as air can go, so sometimes it's easier to describe the motion of other fluids. Air is the most complicated
Aliya, do you have any ideia about how many layers are necessary in order to air get infinity velocity? It is not necessary to be precise, just to have an idea.
There is of course infinitely many layers, since the molecules of air are so small. But the thickness of the boundary layer will be different for different freestream velocities. The higher the freestream velocity, the thicker the boundary layer will be.
If conservation of momentum is rho.del.ui/del.t + rho.uj.del.ui/del.xj = rho.f - del.p/del.xi; in the convective (advective if you like) term, why is the first u term uj, not ui?
How much more viscous is honey compared to air?
Viscous of 🍯 is 1,00,000 times the viscous of air💨...
but why the viscous effect can be neglected in the inviscid zone?
Because the gradient of velocity change is not as big as compared to high velocity.
10000 times as per the video and what if the no slip condition is not taken in account what will be the senario
That's a question for a separate video))
I cant express how grateful I am for these videos
Thanks so much!
You explain the topics so good
Waiting for your further videos !
Thank you for watching! Glad it helps :)
I love the simplicity of your explanations. Where were you when I was at uni, oh yes not born lol
The statement at @5:59 is the opposite of what is true. Completely wrong! When the flow has lower velocities, this is viscous flow. Low Reynolds number = Viscous flow. When flow has high velocity, like the example of Mach 1+ speeds, then you can begin to assume inviscid flow. High Reynolds number = inviscid flow.
What a wonderful explanation!!
such simple n sweet videos! :)
Amazing video
Great effort congrats
Thank you Ma'am Aliya!
You're welcome!
nice explanation sista ,expecting more videos in same style of explanation
Thank you, I will
nice explanation..
thanks, i learning something new
This was good. I understand now
a wonderful explanation if possible please make the video for the CFD
Nice explanation please upload atmospheric wave
Thanks! I will try as soon as possible
1:49 100,000 times more viscous than air
nice thank you👌
Thank you too for watching!
Pretty good explanation of viscosity.Sad to see that it's so underrated
God bless you
damn, this was very clear! but I have a question, can the same explanation be used to explain any type of viscosity such as oil and water?
Of course! Viscosity is a property of any fluid. But some fluids can't go as fast as air can go, so sometimes it's easier to describe the motion of other fluids. Air is the most complicated
@@AliyaBurkit great! thank you so much for your help, you are really helping me a lot in my fluid class!
@@diegoguatemala1520 Glad to help!
100 time thanks ❤❤❤
Most welcome 😊
Aliya, do you have any ideia about how many layers are necessary in order to air get infinity velocity? It is not necessary to be precise, just to have an idea.
There is of course infinitely many layers, since the molecules of air are so small. But the thickness of the boundary layer will be different for different freestream velocities. The higher the freestream velocity, the thicker the boundary layer will be.
@@AliyaBurkit Thank you very much.
Thanks for your videos, I just wanted to tell you that your explanations are always very helpful, cheers from Spain!!
@@nicolopradella7091 Indeed!I totally agree with you.
@@AliyaBurkit Cheers from Brazil!
comedy always a winner to break the tension
you are sooo GOOD...❤❤
Thank you
Ma'am, what are the fundamental equations of motion describing the fluid flow? I am new to this topic.
Thx
Thank you for watching!
Thanks!!
Welcome!
what film is this? the clip you put right at the start?
Van Helsing (2004) :p
So V Infinity means velocity at the infinity not infinate velocity ,I am not familiar with aerodynamic terminologies so it confuses me
Air is 100,000 times less viscous than honey.
Exactly!
Tq
Nice presentation. But your editing is not like that. Because is difficult to understand.but your explanation is good 8/10thank you.
ليه ما مشطتي شعرك قبل ماتتفلسفين
I don't understand 😅
Ne anlatıyorsun ablacım sen ?
If conservation of momentum is rho.del.ui/del.t + rho.uj.del.ui/del.xj = rho.f - del.p/del.xi; in the convective (advective if you like) term, why is the first u term uj, not ui?