Bernoulli's Equation
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- čas přidán 11. 03. 2015
- 088 - Bernoulli’s Equation
In the video Paul Andersen explains how Bernoulli’s Equation describes the conservation of energy in a fluid. The equation describes the pressure energy, potential energy, and kinetic energy of a fluid at a single point. A sample problem illustrating the fact that as the velocity of a fluid increases the pressure energy decreases. A discussion and application of the continuity equation is also included.
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Thank you so much. I was having trouble grasping the equation, but you really broke it down to an understandable level. You help make physics enjoyable, much appreciation.
There are people who are very knowledgeable yet can't dumb things down for the layman, but you sir have a gift of teaching /explaining your explanations are simple and clear.
This is the best video on Bernoulli's equation i have found. Straightforward and no nonsense.
That was a simple and perfect explanation, sir. Thumbs up.!!
Although it's been 5 years since this video was made, but it will still a reference, in five minutes I learn what I did in 5 years. That what you have when the instructor knows what he's talking about, he can explain it simply. Really great job.
A very good video thanks. You explain the concept, with examples, clearly and concisely. You don't go too fast or too slow, no ums and ahs everywhere, and no PC text-to-speech.
WOW in ten minutes on youtube i learned more than what our teacher taught us in 5 days..........
I was just about to write the exact same thing. This is why I skip lectures sometimes. So much extra time.
Signed up on youtube just to like your comment.
totally agree!!!
SAME!!!
That because teachers need to make you feel small and make it much more complicated than it’s supposed to be.
What a great lesson! Thank you, Mr. Andersen and Bozeman Science Channel
This randomly popped up in my head and I learned something I always wanted to know.
Super simple. Thank you so much!
Wow, you really explained that in an intuitive manner, and very quickly without any fluff or anything, but still kept it interesting. Great video, thanks!
I rarely leave a feedback on a CZcams tutorial. But this one really helped me understand the complexity of Bernoulli's equation. Big thanks :>
You just explained something ive been struggling to understand on my course for ages in minutes. Teach me all you know! awesome thanks!
Thanks! this video was very helpful for understanding this concept. I liked the visual demonstration and the calculation you went through. They explained everything in a concise yet comprehensive way.
Amazing explanation! I never though to apply Bernoulli's equation to a ball moving through air, as I didn't know that air had the properties of a fluid even though it's a gas. I actually came here in my mission to learn how airfoils work and how air speed affects pressure. Thank you!
I've been struggling with this for weeks! I finally understand in 10 minutes. Thank you for your clarity!
i wish my university teacher could have just taught me like this , much easy to understand and remember!
They can't :)
best of luck
You were taught that in university.....??..
I studied that in high school....😪 education system sucks
@@chinmaysharma5202 Mere mortals.... I was born with such trivial knowledge
Yes👍
Thank you so much! I have been struggling with this topic for weeks! In one video, you’ve taught me what I needed to know! Thank you so much!
When you explained pgy, I was gob smacked at how much I understood the equation! Thank you. Thank you so much.💗💜💗
Thank you so much, Mr. Bozeman!! I love your channel! I’ve learned so much more here than I have with my undergrad courses! 🤗
I'm not even in AP physics and I still loved this.
I love you.
helping me since middle school, and I'm about to apply to medical school soon
Danial K Congratulations!
Danial K Just curious here. Is this formula important to doctors? As other physical formulas?
William Nathanael Supriadi in germany apparently 😅. But then again germans just really love physics.
Wondering if you got in? :P
I think i remember my ordinary diff eq proffessor telling me Bernoulli's equation had applications in calculating blood flow. Its possible it was airys or legrange's he was talking about but ODE's can be applied to many different fields
This is possibly the clearest explanation of Bernoulli's equation and its application I have ever seen. I honestly don't know how anyone can top this.
I am romanian, I live and study in Italy and I had to listen a video in english to understand Bernoulli's equation! Thank you so much!
I respect you man, thanks for taking the time to help people out.
Thank you so much for your video! I am studying for my MCAT exam coming up next month and this was helpful in comparison to my MCAT physics review book. So far the book has been easy to follow except on this topic. Your explanation literally saved me a lot of study time, thank you again!
Your channel helped me out so much this semester. Thank you so much!
Great teacher. Simple and easy to understand explanations! GJ!
One of the best explanation till date that I've listened on CZcams your great sir you helped me
I would've learned allot if you were my teacher
Very nice video.. You explain the equation with examples very clearly. THANK YOU !!
FML !!!!!! this has to be one of the best physics video I have ever seen- Amazing!!!
how can 12 people thumbs down this video? one of the clearest and most concise videos I have seen
Just loved it for its clarity .
An excellent presentation. Thank you so much.
You deserve more subs! Thank you for sharing your knowledge.
I loved the curveball example!!! I had no idea that had to do with Bernoulli's equation. I always wondered how that worked!
The animation was very helpful. I was trying to study this last night and a ten minute video was all it took.
Amazing explanation sir!!! It's just wonderful. ..........................................................
Thanks for uploading such an incredible video!! so informative !!
Thanks again
YOU ARE AMAZING! I'm not even an english native speaker and I understood it better than reading in my mother tongue. Seriously, awesome!
Amazing Video
Keep up the great videos!
Very good animations used in this video. Made the things much easier to understand
Great explanation, Mr. Anderson. Thanks a lot.
Great video, very professionally made!
Thank you so much for detailed concept explaination!
that was very well explained and easy to follow .thank you Professor Anderson
Wow I'm impressed and love your channel! Thank you so much for this
Bozeman is GOATed this video is incredible
In civil engineering and i still have to look at your videos!
Simply,You are amazing!
Bernoulli's eqn in 10 min. Thats crazy. Thank you sir fr saving much time.
Very clear explanation of what is sometimes counterintuitive.
180 minutes in the classroom = 10 minutes on CZcams! You're a magician!
Great video and visuals, Thanks man
Hi Bozeman Science, Paul Anderson and Team, Thank You for your explanation of Bernoulli's Equation.
It helped me sort out that rho=Density, and the potential and kinetic energy variables of the equation.
Oh well back to the Pump Test Stand.....
I'll pass the information along to other members of my Pump Unit Assembly Team.
so simple, now I'll never forget bernoulli's principle. Thank you !
I am retired now but still an avid learner. How I wish CZcams existed in my day. I studied to pass exams but the many lousy teachers and lecturers I had made it all seem so difficult. Thank you very much.
That was so helpful thank you for existing 💙
7:15 Tiny error (Rho should be Kg/m^3 and not Kg/m^2).
Zoe TheCat...thanks
I just noticed that and was looking if someone else also did notice that
LOL, I was just typing a reply, pointing that out as well when I noticed your post
I just want to ask how did he get the 90kpa?
one chapter in 10 minutes... , thankyou so much !
In 10 min I just learn all thing our teacher teach in week.Tnk you very much
Very well done. Please do more!
Very helpful. Thanks for sharing. I loved it 👏👏
Excellent presentation and thankyou!
This guy is just phenomenal. Hats off sir. 👍
Good Stuff, this explanation really helped me.
You've just saved me several hours of trying to understand my lecturer's notes.
it was a very beneficial video to comprehend the Bernoulli's Equation...
Thank you a lot :)
Awesome video ,great way of explaination.
great work to sir Bernoulli. even if he died but his principle will never die. we use it even in medicine especial
in anatomy and physiology .when blood stream reaches in constricted area of vessel the velocity increases but total mechanical energy remain kept constant.i am a medical scientist from RWANDA.
throughout the whole video i was expecting the actual bernoulli's equation to appear, because everything you were talking about was pretty self-evident and i recall bernoulli's equation to be harder to comprehend. i had to open the wiki to make sure it is actually the same thing
Thank you! This video was very helpful! You are an amazing teacher
That's the best video ever about Bernoulli's equation
That was brilliantly concise and very helpful thank you
Thank you , your teaching is so helpful.
What a great teacher. Ten thumbs up!
simple and crystal clear wish my professors taught like you did
I'm amazed by the marvellous efficiency and intelligibility of this video, honestly.
7:10 Just got a bit confused by the density of water where the unit is Kg/m^2 instead of Kg/m^3
It depends if you are in 2D or 3D. He seems to have kept everything in 2D so everything is normalized over the depth, hence Kg/m^2 is appropriate here. In a 3D setting you would of course use Kg/m^3.
cheers man! great examples too
Thank you so much! This video helped me understand more than my lecturer's 2 hour video
Very well explained, thank you
give this man all the awards because he is an educator of the highest caliber
Bro, this is an amazing video. Thank you!
Really helpful, thank you
Thanks for the animations.....much easy to understand...😄😄
I'm a medical student. I needed that in order to understand obstructive sleep apnea syndrome. Thank you!
Excellent Sir. Thank you !!
simply the best .... understood bernoulli's equation in just 10 minutes
Thanks man, very helpful and simpel explanations:) keep up the good work
thank for the video. Great visuals and nice explanations, like a Professor when teached.
ur videos are excellent. thank u so much
Thanks alot your videos are very useful
thanks for the video Mr. Anderson.
Just wondering where you got the 1620 from in your calculation at 8.02
isnt it supposed to be 405 instead. since
1/2 (1000) (0.9)^2 = 405
??
Thank you so much for teaching!! I am studying a subject named fluid mechanics right now and this video gives me a lot of the concept I need!!
Great Teacher and excellent explanation. thanks a lot.
Great stuff bro great teacher.
OKAY THIS IS AMAZING AND INFORMATIVE.
great video, man, thanks :)
Great explanation! Thanks man!
Subscribed. What a great teacher.
Great video, thanks!!
Amazing, excellent explanation. :)
beautiful explanation teacher!