In a moving fluid energy is conserved As the speed of a fluid flowing horizontally increases, the pressure drop will decrease is Bernoulli's Principle An isentropic flow both B and C Bernoulli's principle only applies to horizontal flow so as to not take into account gravity The resistance of two things sliding against each other is friction Everything happening inside a system is called a process The _______ the velocity of a fluid, the ________ the frictional losses greater ; greater What country was Bernoulli from? Switzerland Who was jealous of Daniel Bernoulli? his father All of the following are fluids EXCEPT rock be back next time stay fresh kings
I may be nitpicking a bit here, but your definition of Bernoulli's Principle seems poorly worded. It should read: "As the speed of a fluid flowing horizontally increases, the pressure will decrease..." the term pressure drop describes the change in total pressure between two points in a network. As the speed of a fluid increases, the pressure drop between two points will actually increase.
I only started listening to the video 3 mins in, because I trying to figure what this has to do with lil pump. Now I'll think about lil pump during my fluids classes. Oh PUMP, fluids, *face palm *
Is it weird that for as long as I've worked with fluid flow in pipes, I've been fascinated by roughness? I was doing other things while watching this video, but at 7:24 I couldn't help but perk up and pay more attention. It so often makes such a small difference, but I always found myself wishing that there were more data out there covering roughness measurements! And I always had to caution my students that while tuning roughness to get your simulations to match measured pressure losses was a reasonable thing to do, you also had to take care that you kept it within reason... There are few things more frustrating than seeing someone "match" their simulation to measured pressure losses by increasing the roughness to a value greater than the inside radius of the pipe!
Conservation of energy. The energy to make the fluid go faster has to come from some where. Since it isn't changing height, the only place for it to come from is pressure.
This is like using barometers and other weather gadgets so help us God, that we may design buildings that won't melt in the heat, I can't wait to hear about to new data in Sept. or December in 2018 this year. I like the pump idea's like septic shark, or being able to pump out the septic tank :-)
So everyone is talking about pop culture while I'm thinking about where to apply this to my video game. I've also taken into account most of the concepts in physics as well as those presented in this series. See me in like 2-4 years when I make substantial progress on that, and simulate reality (or alter it a bit)
I have experience in fluids mechanics simulation, if it is for a video game I'd recommend no to dwell too far into it, it takes a long time to get even a grasp of it and even longer to simulate.
They don't... The Bernoulli equation lets you estimate the required discharge pressure. Next one would start looking for what type of designs can do that and which ones can't. (dynamic or volumetric, valves or no valves,..)
Thank you for this incredibly well thought out prsentation. The framing in your wideshot is terrible and distracting. Please research and apply the concepts of "head room" and "rule of thirds" in future videos. And thanks again for presenting these concepts.
I zoned out like one minute in. 🤔🤔🤔🤔🤔🤔 BTW, it's pretty discouraging to see such a messed up shelf behind her considering this is a subject on physics. 😜
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2:17*Quite A pain in the arm* so close😂😂
Yugesh Keluskar yeah and the way she says that. So good
Sanjeet Khurana yeah right
Thank you for the video and explaining the concept very simply and practically.
In a moving fluid energy is conserved
As the speed of a fluid flowing horizontally increases, the pressure drop will decrease is Bernoulli's Principle
An isentropic flow both B and C
Bernoulli's principle only applies to horizontal flow so as to not take into account gravity
The resistance of two things sliding against each other is friction
Everything happening inside a system is called a process
The _______ the velocity of a fluid, the ________ the frictional losses greater ; greater
What country was Bernoulli from? Switzerland
Who was jealous of Daniel Bernoulli? his father
All of the following are fluids EXCEPT rock
be back next time stay fresh kings
I may be nitpicking a bit here, but your definition of Bernoulli's Principle seems poorly worded. It should read: "As the speed of a fluid flowing horizontally increases, the pressure will decrease..." the term pressure drop describes the change in total pressure between two points in a network. As the speed of a fluid increases, the pressure drop between two points will actually increase.
I only started listening to the video 3 mins in, because I trying to figure what this has to do with lil pump. Now I'll think about lil pump during my fluids classes.
Oh PUMP, fluids, *face palm *
It’s a me, Mario! Thanks a lot for the lesson
Best clickbait ever I stayed the entire video.
Amazing, your videos worth = 2 hrs of self study=1 hour class lectures.
This series has become more about mechanical engineering than the other disciplines like electrical
I'm sure they'll cover that too.
Patience, young padawan.
lmao that lil pump reference in the title
Is it weird that for as long as I've worked with fluid flow in pipes, I've been fascinated by roughness? I was doing other things while watching this video, but at 7:24 I couldn't help but perk up and pay more attention.
It so often makes such a small difference, but I always found myself wishing that there were more data out there covering roughness measurements! And I always had to caution my students that while tuning roughness to get your simulations to match measured pressure losses was a reasonable thing to do, you also had to take care that you kept it within reason... There are few things more frustrating than seeing someone "match" their simulation to measured pressure losses by increasing the roughness to a value greater than the inside radius of the pipe!
No mention of Moody diagram/chart! In my opinion, still one of the oddest (but very useful) empirical tests ever performed.
*ESKETITTTT*
we need a pump. A lil pump
YO SPONSOR LIL PUMP YO, HE SHOULD DO AN EPISODE OF THE SCI SHOW
I wish I was a genius like Daniel Bernoulli!
You can work and research fluid flow & equipment materials following the career of Chemical or Mechanical Engineering.
You guys should do CC Rap History in the near future!
Someone explain the thumbnail?
lil *PUMP*
title: fluid flow
other clue: standing next to a plumber
@@allknowledge7146 yup
*ESKETITTTT*
t
It is Professor Lilith Pumpernickle phD
Great show
Why is pressure related to the inverse of the velocity? Like why does the pressure decrease if I increase the flow rate?
Conservation of energy. The energy to make the fluid go faster has to come from some where. Since it isn't changing height, the only place for it to come from is pressure.
Ooooooooh I see, thanks!
Time to equip my Gucci flip flops
No Navier Stokes?
Who else clicked on the video for lil pump😂😂
Seriously who? Lil' punk? I listen to Borodin.
Ahh Fluid mechanics and hydraulics those made my brain explode
Let it flow
This is like using barometers and other weather gadgets so help us God, that we may design buildings that won't melt in the heat, I can't wait to hear about to new data in Sept. or December in 2018 this year. I like the pump idea's like septic shark, or being able to pump out the septic tank :-)
At first I thought "pressure drop will decrease" means "pressure will increase". Double negatives here.
did you change the presentation style?
this seems more math lecture style, maybe a bit too boring to follow
Nice!! Is it possible to build electric generator with workshop equipment?
So everyone is talking about pop culture while I'm thinking about where to apply this to my video game. I've also taken into account most of the concepts in physics as well as those presented in this series. See me in like 2-4 years when I make substantial progress on that, and simulate reality (or alter it a bit)
I have experience in fluids mechanics simulation, if it is for a video game I'd recommend no to dwell too far into it, it takes a long time to get even a grasp of it and even longer to simulate.
I waited for this
Lil Pump got that drip 💎📿
I think I missed the point. Where do we calculated that pump?
They don't... The Bernoulli equation lets you estimate the required discharge pressure. Next one would start looking for what type of designs can do that and which ones can't. (dynamic or volumetric, valves or no valves,..)
We need a lil’ pump
Everyone’s talking about lil pump but nobody is talking about Mario!
Is the viscosity covered by density?
*Bernoulli's principle? Now we're talking.*
*And I'm not even a water guy.*
love cc
Reynolds Number?
Compress gasses OR force air into a tire? Wow!
esketit
Pump
Thank you for this incredibly well thought out prsentation. The framing in your wideshot is terrible and distracting. Please research and apply the concepts of "head room" and "rule of thirds" in future videos. And thanks again for presenting these concepts.
In CC Rap History lil pump has to have an episode of his own!
lmfao lil pumps basement flooded
ESKEETITT!
Its how lil pump does math: *_70 negguh._*
And lil pump?
Yeah, you may not be able to transport all that water if your pump is lil
AS SOON AS I SAW LIL PUMP I WAS LIKE :
" OH GOD NO PLEASE DON'T MAKE HER RAP *PLEASE* *GOD* *NO* !!! "
Gucci Gang!
I make AI videos.
CrashCoure Soundcloud
Was that lil pump
Get it everyone Lil "Pump"
Am I the only one who didnt think this was lol pump when clicking?
But why Lil pump
Do people still say awesomesauce?🤔
Zach Van Harris JR well you just did lel
Mario? :)
I thought that this was a lil pump flow tutorial lol
I zoned out like one minute in. 🤔🤔🤔🤔🤔🤔
BTW, it's pretty discouraging to see such a messed up shelf behind her considering this is a subject on physics. 😜
How about a CrashCourse Africa?
Gucci Gang
0/10 no pump mechanisms
It's fluid flow 101...
lill pump
Sponsored by lil pump
Came here for a casual CC episode, instead ended up learning about lil pump . WHY!! (facepalm)
ESKETIT
only clicked bc of lil pump
Eskettit
u cant choose any pump u have to choose lil sewage pump lol
Lil Pump uh
lol, Lil Pump
Clicked because lil pump
Same LOL
Haha lil pump
you *_lil pump_*
uno
Holy LOL
LULLL PUMP
I clicked to see lil pump then left
I saw lil pump and I disliked.
Sorry, it's a habit that isn't going to change.
Clickbait
Thumbs Down for the cringy Lil Pump in the thumbnail.
Ah u still speaks soo fast.
H. Shakeel then slow it down. Not hard.
Put the speed of the video slower
Bad accent