Great Video, In my opinion the respective faculty can show this video to aeronautical and mechanical engineering students in their class room during course work - compressible flows.
Just one question. Why we take chezzys and manning coefficient independent of fluid viscosity. i.e. According to my thinking, there will always be a fluid layer sticking to the bed (no slip condition) and the effect of bed roughness is propagated to other layers of fluid via viscosity. But both these coefficients doesn't have viscosity component in them. For example if I apply the Mannings equation for hot areas where water temp is at 30 Centigrade and in cold areas where the temperature is 5-10Centrigrade. In both, the case Mannings equation will yield the same Flow rate but I think the flow rate will be different in both cases for the same channel.. Please help me with this.
These old videos are so very good at explaining these phenomena. Thanks for uploading!
Great Video, In my opinion the respective faculty can show this video to aeronautical and mechanical engineering students in their class room during course work - compressible flows.
U don't make bombs out of it pls.
Now this is rocket science!
is it possible to re-upload the video with properly synced sound?
th-cam.com/video/45w1-lwFSzM/w-d-xo.html
Great video! So retro I love it! I wished the video and sound synced up though.
lol
Just one question. Why we take chezzys and manning coefficient independent of fluid viscosity. i.e. According to my thinking, there will always be a fluid layer sticking to the bed (no slip condition) and the effect of bed roughness is propagated to other layers of fluid via viscosity. But both these coefficients doesn't have viscosity component in them.
For example if I apply the Mannings equation for hot areas where water temp is at 30 Centigrade and in cold areas where the temperature is 5-10Centrigrade. In both, the case Mannings equation will yield the same Flow rate but I think the flow rate will be different in both cases for the same channel.. Please help me with this.
Good videos,
I was wondering if I could get a copy of the notes?
this is old school as fuck
higgins brought me here
From where?
Praise the homie Xian Shi
I'm Joe
USYD Fluids 2 anyone ?
the audio goes out of sinc
like si eres de la uma