Streamline Equation: Example 1 [Fluid Mechanics #6]

This is my homework problem. lol..well one of the homework problems. I totally understand it now.

Im glad this is helping! By the way, I received your message regarding the notes, but it wouldn't let me send the message to you for some reason. As for the notes, I do have them available. Ill begin scanning and posting them once I am done with the fluid mechanics playlist videos. I appreciate your comments! :)

Could u derive euler's equation of motion for streamline flow...??

"e and ln... well they obliterate each other" :-)

x=r*cos(Theta) y=r*sin(Theta) Get your general equation for a streamline using the above method and then do a simple substitution.

Helpful but soooo slowwwwwww. 

This is really helpful, thanks a lot. i'm just curious were you sucking on a candy or something while filming this? cuz it sounded like you were and after watching this i'm really craving one lol

So sloooooow

thank you so much for these videos screw these morons your're awsome

handwriting is so nice lol

thank you so much sir,your video is really help me to understanding the basic of fluids mechanics. god bless you

So, if there's a t variable, how do I deal with that? Can I still set dx/u=dy/v and ignore the t or do I have to get it involved somehow?

thanks bro it is a good example

how do you solve it when you have a 3D problem? (ie there's a k component)

fuck...your handwrting is so beautiful....

capo, porongon, genio, maestro, idolo , astro, poronga.

Great explanation of the streamline equation. Thanks for your help

Where do these functions come from? Did you make them up?

nice explanation

You are magnificent! So clear and well explained. My lecturer should take a lesson from u. Keep em coming !

Not at all helpful you useless fuck

please do not chew candy while making a video...

Top notch homie

plz tell us how to plot streamline function plz

Thank you

You really thought that sucking on something while making a video was a good idea?

your velocity field is not satisfying continuity equation

what happens if we were only given the x component. would it just be dx/V = dy?

thnx

thank you

Thank God u r not indian 🤦‍♀️🤦‍♀️

thank you so much sir,your video is really help me to understanding the basic of fluids mechanics. subscribed

what if there is a t component in the velocity field equation

Thank you!
Just a small question:
C1 is a constant vis à vis to the x variable and C1 is a constant vis à vis to the y variable, so in fact we can't trully consider them like you know a constant ? isn't it ?

thank you so much!

i know this video is 10 years old but you teach this material way better than my fluids professor!!

Concisely explained. Thank you

My aerodynamics professor did NOT go over this in class, you're a life saver!

get that jolly rancher out yo mouth when you speak boy

After 12 years 😅

I have a question here Professors. The streamlines are parallel or tangent to the velocity vector? I saw some source saying different things. Which one is correct?
I really appreciate it