One of the best fundamental concepts with in-depth details that make everything look simple and easy. I sincerely appreciated the way you convey such valuable information that most professors or lecturers are unable to deliver in such a manner. I applaud you!!
This is a very good question. If you reduced the diameter at the outlet, the velocity would stay the same and the discharge would drop, as the velocity at the outlet is set purely by the difference in head between the tank and the outlet. However, if you reduced the diameter at some point along the pipe, that s not open the atmosphere, this would lead to the velocity increasing to conserve mass with respect to the discharge at the outlet. Hope that makes sense?
One of the best fundamental concepts with in-depth details that make everything look simple and easy. I sincerely appreciated the way you convey such valuable information that most professors or lecturers are unable to deliver in such a manner. I applaud you!!
Thanks for the encouraging comment!
Keep doing what you doing, the sky is the limit. Not many people possess such calm and collectiveness.@@fluidsexplained1901
@@bma6469 Many thanks for the kind words! Hoping to have more content out in the next few months.
Thanks for the video, explained well, very helpful.
Thanks for the comment!
Good job. Thank You !
Thanks for the comment!
good bro. keep it up. love from INDIA
Thanks!
Can you make more videos on developing flow profiles.
This is a great idea for the future!
thank you very much you are the greatest…
Thanks for the comment!
Good job
Is the size of the orifice effect on the speed or on the flow?
This is a very good question. If you reduced the diameter at the outlet, the velocity would stay the same and the discharge would drop, as the velocity at the outlet is set purely by the difference in head between the tank and the outlet. However, if you reduced the diameter at some point along the pipe, that s not open the atmosphere, this would lead to the velocity increasing to conserve mass with respect to the discharge at the outlet. Hope that makes sense?
@@fluidsexplained1901 do you mean 'this would lead to the flow rate increasing to conserve mass' and not velocity?
great job. i want to study masters in CFD and machine learning in UK. can someone suggest me good university for this course?