I'm on military service so reviewing mechanics to prepare for going back to my school I appreciate your detailed explanation sir greetings from korea

Believe me I studied this topic in my civil Engineering graduation in 1983- 87, I felt that I am in my class room of subject Fluid Mechanics . Wonderful Sir , you are amazing .

sir you have been there for me for at least 3 years now. amazing

Brilliant video, I have a test tomorrow and I've already seen 2 videos before this on how to derive it- this is hands down the best video to study Bernouli's equation from! Earned a subscriber.

I just started watching your videos and I just wanted to say thank you so much. Your videos are the most helpful on youtube and I am so glad you have created this channel!

Such a simpler and more straight-forward derivation than those in most texts. Thanks!

Thank you so much. Your explanation is excellent. Excellent enough to make a 9th grader like me to understand such a complex thing.

These videos are really help me understand about bernoulli's equation. Your explanation is perfect. THANK YOU

This guy is serious stuff. I wish i could learn from him more with more depth

Wasn't taught any of this in university, thanks for the video!

great teacher of the decade

Love this video... Watching all the way from Papua New Guinea...

I watched this video for the second time and it was wonderful teaching. I learnt more rather than pervious time ❤❤❤❤

The initial configuration considers the fluid between left end of tube and beginning of the region of small length X2 . The final configuration has the same fluid between the end of region X1 and right end of tube. The total energy of the bulk of the fluid between both regions does not change during the time dt (= X1/v1=X2/v2) the fluid takes to enter region X2 and leave region X1. The work done by the contact (fluid) forces f1 and f2 at both ends of the fluid during the motion is f1X1-f2X2. The contact force of the tube on fluid is perpendicular to fluid and hence does no work on fluid. No friction forces either. The only other force that does work on fluid is gravity. The change in PE of the fluid involves cancelling the PE of the bulk of the fluid between both of the regions at the ends of the tube. That is why only the PE of both ends appears. Similarly for the change in KE, however you are assuming that the velocity of the fluid at any given point in the tube does not change with time.

Beautifully explained. I love this video.

Thank you you're the reason I'm gonna pass my calculus journal

I'm from Kenya. You're such a good teacher.

I have a fluids exam tomorrow, it was a very clear explanation, thank you teacher, greetings from Turkey..

i wish i had the teachers as knowledgeable as you

thank you sir thank you so much. I can understand it clearly.now I can answer it in my semester exam once again thank you sir.

Now I finally understood it! thank you!

Holy! i just started my second year at uni, and i think you cover basically every single one of my subjects (and also cover them a lot better than my professors do haha)

You are amazing professor! Watching your videos was like enlightenment from blurry knowledge I got from college 😅

Thank u Sir, your teachings are so simple to understand 👏👏

Because v2>v1, momentum and energy increasing. So does it mean, conservation of momentum and energy is violated? From where comes extra energy?

Sir, I thought that the expression "W = int p dV" was used for a moving frontier situation. While for a steady state, reversible process, with well defined inlet and outlet section the expression would be "W = int -V dp". So the work balance between point 1 and 2 would be "W2 - W1" so both sides of the balancing equation would have the same syntax. That's my doubt. Did I get it wrong? By the way, THANKS A LOT for your effort in this channel!

now i totally get this equation. thank you

It helps me understand why volume in both side elemeneted, thank you sir.

Pls teach more . You teach very patiently and that's amazing 👏

4:45 I do not see how the work done on the tube of fluid due to the contact forces at either end, W_1-W_2, only involves the potential and kinetic energies of the small pieces of fluid at either end.

Really great videos, thank you for sharing your knowledge with us.

Hello, this video is very informative, can you make example of computation of velocity for presurize pipe the submerge under the sea water using the bernoulis equation, the scenario the pipe is coming from the pipe and the last point of pipe submerge on the sea water and its open pipe at the las point, thanks for you positive reaponse

this is clear simple accurate. kudos

Excellent... U explained pretty well... Thanku... #GodBlessYouSir

It's some Gangsta proof, thank you good sir

Thank you so much ,sir.....God bless your talent.

what a beautiful presentation.

Thank you professor. How does this Bernoullis derivation (ie P+ρgh + 1/2ρv^2) compare with Energy and Head, (ie. Total Head (H) = P/ρg + v^2/2g + z). How do you derive this from the Bernoullis equation you derived? P/ρg(pressure head) + v^2/2g(velocity head) + z(potential head). The two equations seem very similar ie. P(work done)+ρgh(Potential Energy) + 1/2ρv^2(Kinetic Energy). The Bernoulli equation looks like it has been divided by ρg to get the equation for Total head where the constant has been replaced with H. What are the underlying reason for that, how does this relate to the Hydraulic grade line and Energy grade line?

Thanks alot for the lecture. I now understand it perfectly 💯

Thank you so much for this guidance professor!

Thank you so much sir, it was great. Very amazing, steps by steps. Excellent

I'm somali and I'm Muslim ☪️ I say thank you sir i helped in this videos and I conducted this chanel more others I say thanks and go forward it .

oh, you've got a brilliant method to demonstrate bernoulli's equation "respect".

Good presentation...i understand Bernuoli's equation. Sir can you presnt how colebroke equation application on fluid pipe sizing

Well explanation,sir!

Great job 👏

Well explained sir 👏

Great Lecture. Thank you

I do not understand. I understand that same amount of water should go in and go out but this drawing does not reflect that. I ask where are ends of tube? Should be 2 drawings as beginning of process and end of process. is this pipe part of greater system. What does it mean that water coming in to one end of pipe? What is initial state and final state? V1 is fluid coming in? Is it show that V1 came in and V2 have not yet come out??

Thank you so much. You're a life saver

Thanks very much i got it very well sir🤝🙏

Thanx for the lesson.. Really

Excellent sir

Thank you so much, at least I understood

How about work along point1 to point2

thanks, great content.

Great content sir

instead of changing all Vs into ax it would have been easier to just change the two ax into V on the left side, otherwise great job, I really appreciate your work!

thanks again and again sir.

sir tell me about venturimeter.please.

you are a god amongst men

Thanks!

Thanks Sir.

Sir, I studied Bernoulli's equation somewhere. The term "P" was written as static pressure, ½®v² was written as dynamic pressure and ®gh was written as hydrostatic pressure. I couldn't understand why P was written as static pressure. Can you please explain it sir?

absolutely brilliant.

Amazing

Thank you

Why can we take A out of the derivative ? Since it's not a constant

why the difference in the work done is equal to the change in KE and PE needs to be explained.

So basically it assumes you're comparing equal amounts of fluid and there are no losses of energy throughout the path of the fluid.

Thank u sir

easy to understand

thank you sir！Your explanation helped me to understand my presentation on this subtopic well! ;D And without further doubts im surely able to present this well!>w

How can i get in touch with u sir....?

Thank you so much sir

Thanks sir

ottimo

❤❤❤❤❤❤❤

In the words of the great Mike Tyson, fathinating

What the actually force of flow formula? Please help me sir.

Thank you sir ❤

Thank you sir

Thank you sir