Understanding Bernoulli's Equation

Well... not everyone is happy that I mentioned lift as an application of Bernoulli's equation! Here's my video on lift where I explore this in more detail: czcams.com/video/E3i_XHlVCeU/video.html. ✈️✈️✈️
The Curiosity Stream and Nebula bundle is no longer available, but you can still sign up for Nebula and get acess to my bonus videos - use this link for 40% off! go.nebula.tv/the-efficient-engineer.

I am a Mechanical Engineer and I can say this is an excellent explanation.
Well done.

With online classes, it was so hard to understand this.
I've checked textbooks, websites, and countless videos, this is the best video that explains this.

How the f were people able to discover/invent these things in the 19th/20th century, while I can only understand it with 3d visuals.

A video on Navier-Stokes and ways to solve this would be a perfect follow up to this.

I think the one who made this simulation is a genius and master of what he or she was doing. Sometimes even a professor at the university could not explain things as easily as the one in this video. Greatly appreciate it.

One of the best educational video ever. Brief and easy to understand. Great job!

Bruh, just in time for my newly started fluid mechanics class, thanks!

This video is easy to understand because of the visual aids and most importantly, stunning to look at too! Thank you so much to all that involved in making this video!

what a good timing! i need this for my fluid dynamics exam on saturday :)

I have been waiting for so long for yet another video on FM by you and I am glad it's finally here.
I have a confession to make, I was legit scared of strength of materials until I came across your channel. You made me fall in love with the subject and I cannot thank you enough.

Bro...who taught you this god level of editing 😍😍

Your videos are incredible and informative. Thank you a lot and please keep up the good work!

Sometimes I watch your videos just because they are so pleasant and beautiful to look at. I love your animations, and how minimalistic they are 😍👍👍

Disappointed that this channel was just recommended to me today! I am very fascinated in engineering and upon seeing the visuals and explanations, you got yourself a new subscriber! Keep up the good work!

This is probably the best video I have ever seen in this area. Well Done. Please continue in the area of Fluid Mechanics

I went to engineering school in the early 70's and Thermo/mechanical engineering was my major. When I saw Bernoulli, I had to click on this video.
I am sure others join me with reverence of the great men that discovered equations that emulate the physical world we live in. Level of genius involved to be the creator of the math involved...math is discovered and not invented...is hard to fathom really.
Thank you and shout out to fellow ME's watching this and hope life has treated you kind. Tp me, people are born to be engineers. We don't really choose it, it chooses us.

What an outstanding channel, the explanation and illustration on these videos is superb. I wish I had discovered it sooner!

Great job buddy! I learned this almost over 10 years ago in my applied fluid mechanics class and this is a great reminder of that class! Fluid mechanics is really interesting topic and used in so many aspects of everyday life.

I was pondering on this topic, but the way he made it clear is just amazing.
A thumping *Thanks* from my side

So refreshing to see this type of content. Thanks for helping me understand this in depth

where was this video 4 years ago when we had no lecturer to teach us this ! great video thank you for explaining why it works rather than just "because it does"

Learning Bernoulli's was when I knew I wanted engineering to be my path.

These videos are so well made and very helpful in understanding fluid dynamics, thanks!

Brilliant explanation and excellent animation. Thanks a ton for uploading this.

Studied all of this at Jet School when I was in the Marine Corps! Lots of memories! Good instruction. 🙂

Thank you so much, not just for this video but for everything. The work ,the effort that you place to teach us is priceless. I know my appreciation and thanks will not pay you back your effort. But thank you from the bottom of my heart. I was struggling in different areas. And your videos made sense on how and why we use Math and Physics.
My sincere appreciation

Love the simplicity and clarity of this explanation! 👍🏼
I watched it as a refresher for my job.
It actually makes me want to whip out the old Fluids book! 😂

back when I was in college over 13 years ago, I often went on youtube to try and find videos on the subjects I was having a hard time with, I don't know how long this channel has been going on for, but I wish I had found this particular video when I was taking my fluids mechanics classes! I graduated Chemical Engineering so this is a very important topic in my field.

I study this on college when no online education existed Nice to remember this equation ❤️

I've loved your solid mechanics videos and recently I've seen the videos which are familiar with fluid mechanics. Great job and thank you! Expecting more phenomena like this.

I was trying to wrap my head around this and this video finaly made the concept click in my head, thank you!

I have to say that this is THE BEST video explaining Bernuli's equation principle !! well done and thanks you :)

I seriously LOVE your videos! They have helped me understand and make daunting concepts relatively simple to understand! Maybe do one on slipping/tipping?

Having this in my fluid mechanics class, great explanation

Where has your channel been all these years. So glad to know I've found another great CZcams Channel. Thanks🔥

Learned about Bernoulli’s Equation in my ODE class a week or two ago. Thanks for helping out w the visualization

Fluids in motion and preassure is the only topic ive nailed down in this years physics lmao, litteraly my ticket to uni.so fun to do more research upon too

Your videos are an inspiration, they spark a curiosity in me i had long thought to be lost.
I'll make sure to feed the flame, thank you.

video graphics are insane , thank you making such a high quality content.

Your method of explaining is beyond awesome. I wish college used the same methods of explanaition.

I really enjoy and appreciate your videos. If you could do a video about tolerances-fits that would be amazing. Thank you and keep up the inspiring work.

I can't wait for the Navier-Stokes video! I found this channel yesterday and I've already watched all the videos :P Great content, man, it's gotta be the best animations/explanations I've ever seen on these topics.

This is the best explanation of Bernoulli equation ever. Thanks a ton 👍

love how you explained everything.

This is a top notch video. Actually made me want to get nebula. But the equations were well written and explained. The visuals were clear and intuitive.

The video was well done mate! My engineering boards are coming in a few months from getting postponed due to the pandemic and I'm grateful for the refresher.

I watched 10 videos on this topic and this video cleared all my concepts...!!!

Thank you very much for this wonderful video. Finally, understand this concept after watching many videos. Much appreciated :)

so beautifully animated. I wish all concepts of Physics could be explained like this. Such a great channel.

So beautiful explanation along with amazing animations , thank u so much

Awesome way of explaining Sir, really loved it ❤️

I've got an exam on this tomorrow! I knew following this channel would come in handy!

Why do you know I just learned Bernoulli's Equation and didn't quite understand it...
Thousands of thanks!

Super high quality content! Many thanks!

Thank you so much for this content , please continue like this overtime thanks again

after a weekend with my mechanical engineer friends I’ve watched this and understand the weekend easily as an electronics engineer :)

Excellent illustration, very well explained. Recently came across this channel and saw a few videos about fluid mechanics as it is what I am studying rn and the grasp of ideas and concepts I had after watching these videos is just crystal clear. Thank you soo much :)

The editing of this video is great!

Amazing explanation! Will definitely check more videos on your channel (related to my studies).
Thank you for your effort.

Very neat and clear explanation sir, but I just can't help but miss your videos on structural mechanics. Hope one day we will see some lectures on macro-mechanics of composite materials from you. Keep up the good work!

Learnt, unlearnt and now relearnt after more than a decade. I still vividly remember the experiments we used to showcase on bernoulli's principle at sciene fairs at high school. Also vividly remember the venturi and orifice meter experiments at fluid mechanics laboratory in university. Equations like bernoulli's are simple yet powerful. Thanks for sharing 🙏

I am an environmental engineer and you have helped me with my courses such as fluid mechanics and water supply. thanks. 🙏

Great animations and explaining!

Hats off to you sir.! You are also a great personality to witness sir. Though you don't mention in your videos but I do get motivation and inspiration at the end of the video to try to follow your path.!
Sir, can you please explain why for an airfoil you represented the low pressure with a much more area diagram than for pressure below airfoil, is it a free hand type of pressure diagram?
Thank you sir for your videos & presence again.!🙏

This principal was fundamental in the development of the steam injector used for forcing cold water into a fully pressurized steam boiler for steam locomotives and other steam engines. The steam injector was a brilliant piece of engineering.

Nicely explained, thank you. Graphics are awesome

Always loved this equation! Great vid btw!

I've recently started watching your channel and I must say your videos are on next level.
I've confusion in static, dynamic, hydrostatic and stagnation pressure. Can you please make a video on that as well?

Great video and animations as usual. Thanks a lot. A questionn about the Pitot tube : Why do you assume that the flow doesn't enter in the tube ? In an other words, why do you assume that the stagnation point is at the entry of the tube, rather than at the end of it, where the stagnation pressure measurement takes place ?

You are a hero. I love your videos so much! watching this video is more enjoyable than watching movies

dude's voice is a literal lullaby...i drifted off in the middle....jokes apart...brilliant representation and explaination..thanks buddy!!

our professor told us just the equation and explained nothing else, thanks for this video

Really well done video.
A few comments:
- the main assumption in all forms of the Bernoulli equation shown in this video is "inviscid flow", ie., neglect all viscous (fluid friction) losses.
- in the derivation of the Bernoulli equation you do not have to assume the flow do be laminar. Actually, viscous losses are comparatively higher in laminar flow (= lower Reynolds number), so applying the Bernoulli equation to laminar pipe flow would give significant errors after a short distance.
- agree with what TraneFine is saying below...
- when you apply Bernoulli to pipe flow, or a contraction (Venturi meter, etc), you are really expanding the "streamline" derivation to a "streamtube" concept, ie., you are saying that the velocity is uniform at any given cross-section -- also known as 1-D flow.

Amazing explanation thank you so much! Love all the graphics

It was such an impressive presentation!! Explained every concepts in a lucid way, thank you☺

About this channel :
In One word - Great.
Can tell me the source - books for Fluid Mechanics and Strength of Materials?

I am currently an Instrumentation Engineering student and I can definitely say this video covers everything that you need to know connected with the Bernoulli's equation and flow measurement using this equation. It is explained in the most appropriate and easy way including all the maths, for everyone to understand. Thank You for uploading. Subscribed.

Omg I have studied these things in my second of my college. I just mug it up all those things. But I searched a lot about fluid and solid mechanics alot in CZcams. Can't find videos like this. Once I found this channel on while You uploaded the second video. I got clear idea about those thing you explained. Thank you for your quality videos. Please continue of posting videos. ❤️❤️❤️❤️❤️❤️

keep making great vids like
centrifugal force , pascal law , continuity equation , venturi , orifice , water hammer , stall , detonation , surge , knocking , stagnation pressure , vibration , cavitation
we all be really grateful if you did those

bruh i am preparing for jee and this is the perfect explanation for aspirant like me

this is the most legit video I have ever seen in my entire life.

so much condensed information! thanks

These are the best graphics I have ever seen in CZcams superb bro
Keep going

Fluid dynamics Chapter 1:
"Water flowing down the gully
it's adhereing to Bernoulli"

Would you consider creating a video on your process in Blender for these videos? Or link some resources you used to develop your skills in this area? I am a young lecturer at a university and I want to build up my own catalog of content like this, I've shared your videos with my students and they love them!

Man i really appreciate u why, i haven't got this content suggestion 2 years back

Excellent material, thank you and keep up the good work!

i don't think i intuitively understood bernoilli's principle, even after a college degree in engineering until this video.
college is so worthless.
good teaching/schooling/education is all about how well you're able to get a person to have that aha understanding, not how much money it gets, its brand name reputation, or how challenging they make their courses.

3:30 the continuity equation holds regardless of whether you assume an incompressible flow or not. The assumption would help you get rid of the density change between 1 and 2.

Taking your level one next week. Thank you for making this information accessible.

Thank you for a clear and precise explanation

Which software you use make such video ?

I think Bernoulli's equations play a minor part in wing lift, and the main emphasis should be directed toward Newton's Third Law of Motion which says for every action there is an equal and opposite reaction. If a plane's wing is being pushed up, then the equal and opposite reaction is air being pushed down.
Airplane wings are usually tilted upward in front by four degrees, which creates more force on the bottom of the wing than on the top surface, thereby creating a tremendous upward force on the bottom of the wing producing lift. I seriously doubt the additional small amount of distance the air requires to travel over the top of the wing surface creates a pressure differential large enough to produce the necessary lift.

Beautifully explained.

such amazing video, thanks for explaining these function so clear for us!

I was never satisfied with the typical explanation given of how lift occurs on a sail or wing - that air flow has to cover a larger distance on the top of the wing so it creates lift on the bottom. It’s as if all the air molecules on the bottom of the wing tap each other on the shoulder and say “hey bro, I heard that the air on the other side of the wing has to travel farther. So that means we should push up on the wing.” I prefer to think of molecules and atoms smashing into each other to provide explanations as to how things move. The way Einstein visualized what it’d be like to travel as a light wave, I like to visualize what it’d be like to be a molecule colliding into things - it’s more intuitive.

ngl Your order of videos looks like my engineering syllabus lmao

Educational videos like this are life savers for high school students like me during this period of uncertainty.

This video is WAY BETTER (in my opinion) than some high standard textbooks ! This is really a great job ! Thank you !