Thank you for watching. Fluid mechanics is one of my favorite topics😂😁, so I hope this helps and make sure you sign up to get the head loss overview sheet! Good luck and keep up the good work!
That is correct! If the question doesn't specify friction losses then you don't include in the problem! Thank you for watching and good luck with your studying!
I took my FE Civil and i just want to say thank you! I passed and I couldn’t have done it without your help
Miguel, congratulations 😊 I am really happy to hear that you passed your FE and I am glad I was able to help! Good luck on your future endeavors!
It has been couple days since you posted a new video. Please keep them coming you are the only channel I ever subscribed to!
Hello dweller, I have been sick lately, but I will start posting again next week 😊
Excellent concept!!
This was really helpful. Thanks a lot!
Thank you for watching Yusuf! We're happy you found it helpful. 🙂
Awesome! Thank you for simplifying it.
Thank you for watching. Fluid mechanics is one of my favorite topics😂😁, so I hope this helps and make sure you sign up to get the head loss overview sheet! Good luck and keep up the good work!
Thank you
Is there no head loss because the pipe is assumed to be frictionless?
That is correct! If the question doesn't specify friction losses then you don't include in the problem! Thank you for watching and good luck with your studying!
Hi, i asked on a previous video if you do economy and statistics also, I'm hoping you do
Ma'am how to calculate pressure when we have velocity, pipe length and pipe diameter. Nothing else
video starts at 0:27
if you use the area formula pi*r^2 in the flow rate you get a different answer which is A. Why is this the case?
If you used pi*r^2, you likely solved for radius, when the question asks for diameter. Double answer A to get answer B
Vous-venez d'où? Je sais que t'es française pourtant quelle partie de la France?