me too hahaha

its mad coz I acc did you lot don't understand hahaha

🤓

Without this whole semester, you wouldn't be able to understand a single word from this video.

yeah I am aware of it . I should have modeled converging pipe here. Thank you for commenting it out. Hope everyone sees it ^^

yeah, after spelling because as "cuz" in their video, they lost all credibility to me

Sure I will try my best ^^

Many many thanks ^^

Thx ^^

yeh ^^

WLC ^^

WLC btw ^^

Sure I will. I am focusing on them :)

Hey NiLTime. What are the resources you used to make these videos? They are awesome.

timber pipes? what?

You are on drugs mate

THx ^^

higher viscosity fluids will result in greater frictional head loss and hence pressure drop as well

I also did not understand this - if there is no friction or change in height etc... why would the velocity increase/static pressure decrease?

@MrHumourTumour chill guys . A big mistake . Should have made a converging pipe. Forgive me. :3

Thanks bro...but it'll be much helpful if you rectify the video and re-upload it. You're work is amazing. Helps us understand the concept clearly.

Check units first! Maybe your friction coefficient is just that low! I don't think hL can be negative. Maybe you mixed up your hL calcs? There are two formula for laminar + turbulent, thus two divergent paths, in terms of arriving at a value.

If the diameter stays constant the velocity stays constant so it cancels out. The continuity equation (Q=vA) details this concept. For the velocity to change as the video states there must be a change in the pipe diameter (cross sectional area)

Please dont get confused here. Increasing velocity never creates pressure loss.. but it might create pressure drop. In an ideal fluid and ideal pipe, pressure loss donot exist, but there exist pressure drop. Here the initial energy of fluid is equal to final energy. So the equation is balanced in ideal fluid. And we donot need pump. Energy is conserved/constant. But in frictional fluid there is pressure drop as well as pressure loss. This presaure loss is created due to friction between layer of fluid .. roughness of pipe .. and many other reason (but not of increasing velocity) . Here The energy of fluid decreases and disseapear completely to atmosphere. So in order to give energy to fluid .. which is to overcome these pressure loss ... we use pump.

@@NiLTimeAlright so the pump increases the velocity of the fluid right, or does it simply return that velocity to its original state? And if it increases the velocity even further than the original state, would there not be a pressure drop between the entrance of the pump and the exit, essentially? Btw thanks for the answer, I didn’t choose my words carefully but I meant “pressure drop” in all cases.

@@grantstidham9322 @Grant Stidham it is better to say ..Pump gives energy to the fluid. It can return energy back to original state or increases it even more. Of course there would be pressure drop between inlet and outlet . More pressure drop .. more electric energy it consumes . The electric power that motor consumes is proportional to its pressure drop ...

haha yeah me too ^^

type of pressure?

Just Graduated this year on feb 2021 ^^

@@NiLTime im happy to hear that, i wish you the best :))

about decreasing static pressure? yeh for ideal fluid :)