Great video! Just wanted to point out a small discrepancy in the annotation at 21:35 regarding the reading of the Moody Diagram. The presenter explained it correctly, but the annotations might be a bit misleading. We don’t follow the e/D curve line to the end at the boundary with the laminar regime. If we did, we wouldn’t be able to read friction factor values below 0.04 or above 0.08. The correct way to read the diagram is as follows: 1. Determine the Reynolds number and the relative roughness. 2. Select the appropriate e/D curve. 3. Mark the point where this curve intersects with the Reynolds number. 4. From the marked point, move horizontally straight to the left axis to read the friction factor (f). Hope this helps future viewers! Keep up the good work.

Suitable velocity range is very important to minimize losses... Thanks for information @3:33

Great informative session 👍

Beautiful explanation. Thank you very much

An excellent review. Where could i find the ppt file for this lecture ?

Very Helpful...............thanks

Hello Where I can find all dxf file as the playlist link says they have been moved. Thanks.

very helpful video

Thanks

Plc attach book manual for water modeling /water cad/