I usually dont comment on teaching videos but ... THANK YOU SO MUCH! been searching textbooks that would teach how to solve it for weeks and didnt find anything. This video explains it perfectly!
Finally! I've found an excellent approach of the classical and practical question: what is the flowrate if all I know is pressure drop and "flow route"? Great job!
I didn't understand why did you write Aplha1=Alpha2=1.0, and said the flow is turbulent. doesn't the case you mentioned means the flow is considered uniform? Why did you relate it to turbulent flow?
![KSI - Dirty [Official Visualiser]](http://i.ytimg.com/vi/VoDh1h1dPUE/mqdefault.jpg)
I usually dont comment on teaching videos but ... THANK YOU SO MUCH! been searching textbooks that would teach how to solve it for weeks and didnt find anything. This video explains it perfectly!
Do you know how to get 3.16 please
Finally! I've found an excellent approach of the classical and practical question: what is the flowrate if all I know is pressure drop and "flow route"? Great job!
Do you know how to get 3.16 please
Do you know how to get 3.16 please
could you please explain how 3.16 came at video 7.25min
just if it was in si units :/
***** Anyhow thanks..so much =)
+Fuad S9S
Hi, The formula is exactly the same...
u just change the units for every parameters in SI according to the bernoulli equation.
could please explain how the value 3.16 cam
Yo Dope video it had me glued keep em coming!:)
I didn't understand why did you write Aplha1=Alpha2=1.0, and said the flow is turbulent. doesn't the case you mentioned means the flow is considered uniform? Why did you relate it to turbulent flow?
turbulent and uniform flow have similar velocity profiles and so the value of alpha is approx 1 for both