Just had the 'ah-ha' moment. Happy.

You definitely deserver more subs than any youtuber because you give content that is actually educating. I have learned so much from you that I can consider you as my teacher/professor for all major subjects

This is a great video, but I want to point something out @8:17. I think Sal is confusing volumetric flux with volumetric flow rate: volumetric flow rate is the rate of volume flow per unit time (e.g. L/sec), while volumetric flux is the volumetric flow rate per unit area (e.g. (L/sec)/square meter). This is important to note, because they're not the same thing, and I noticed something was strange beginning with a previous video (Bernouli's equation part 4) when the units of flux provided at the end of the calculation didn't match the units I came up with; I performed dimensional analysis during the calculation, while the units were omitted in the video (in all fairness, for simplicity and the sake of time). Anyway, great video. Please correct me if I'm wrong. Thanks

He's got clear talent in tutoring bro! Hats offf......... :D

U take forever to draw

The time for water to flow through an Ostwald pipette at 20°C was 297.3 sec. The density of water at 20°C is 0.9982 and the density of a sam- ple of olive oil is 0.910 g/mL. The viscosity of water at 20°C is 1.002 cp and the viscosity of the sample of olive oil is 84.0 cp. How long will it take for the olive oil to flow through the Ostwald pipette at 20°C?

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Quarantine, Khan Academy is my new teacher

I see that you are calling for donations. Consider it done. Also, happy to contribute material, should the need arise. Physics/math/programming are all in my wheel house.

hi khan, thank you very much for this video. it was understood. however, my challenge is that, your analysis is based on fluid. how about if the material is granular in nature. like fish feed or pellet. i am currently doing a project that involve the automatic distribution of fish feed in a pond. Issues such as ratholling, bridging sometimes occurs. in my design, the fish feed is in a cylindrical container which has only one exit. i want to analyse the flow of the fish feed as it flow through the exit. i want to know if i put 5kg of the fish feed how long will it take to empty through an opening of say 5cm x 10cm. will the equation for fluid be applicable for these soft granular material. please i need this help. thanks

Very informative videos, however in 2023 it is very difficult to watch an instruction video in 240p

The opposite of laminar is turbulent? Therefore surely syrup is super laminar? It has minimal turbulence coming out?

Happy anniversary to this video

haha we think the same! the first time i thought off when i heard of flux is the flux capacitor! way better and shorter then the videos of the technion.

Thanks for the video ! But ı have a question hope that this gets answered: The reason why we were able to use same amount of time (t) for the left and right side, is because the pipe was full at the first time ?? so lets say 10 cm3 water that we put has to come out at the end at the SAME TİME because the pipe was full ?

yeah, it's viscosity is so high it looks like a solid. I guess that's how glass is a solid AND a liquid: an amorphus solid

great video. I know he saw it was flux for volume over time but it is also known as flowrate which is self explanatory but used in the book as well.

the first video with 44 likes and NO DISLIKES! AMAZED! :O

the water need not to flow through its full area in [Area(out)] generally not such is the case in the real life

ohh good video

what is volume flow rate of air passing through the ring perpendicularly or by making other angle(45 deg, 30 deg)?

Glass isn't a liquid sal. It is a common misconception. Check out 60 symbols on it.

I'm at a paradox here. I've heard a theory of a possibility of compressed liquid core gas giants that emit no thermal energy. Can open space be so cold as to freeze liquids, compressing them as their gravity increases? If so, what prevents thermal generation? I could never understand that part.

Actually fluids are compressible. Just not easily so. When water is heated and cooled, its volume changes. Air conditioners use a similar principle to heat and cool air by changing the volume of a liquid.

@farzero They're not actually incompressible... but it's a good approximation for most liquids we'll ever deal with.

Thank you!

Does this apply to gases such as air?

aaaaah velocity and volume are both represented by v. SO CONFUSING. But you explain it very well. Thanks (:

what happends to the viscosity of water when pressure changes

@ElaM1NaTo because of area,remember the flow rate formula...V1A1=V2A2

@92310CAMILLE where v is the velocity and a is area..

Finally figured it out after years

glass is classified as an amorphus solid.

How could be the same time 't' for output fluid cylinder to flow out...

Where is the horse??

Thank you

how to convert volumetric flow to mass flow???

Why use the term "flow-rate"? Flow is, by definition, a rate. So actually, flow is: volume rate. I know this is commonly used but I still cringe.

I wonder what would happen if you compressed a liquid extremely hard but the material around the water could not break. I guess it would turn into a solid, like lukewarm ice or something.

Infinitely loading

Not loading for me either.

Just love your videos!!

Thank you!!!

I think I'm gonna cry. Thank You so much! :')

Yay helpfull👍

Sir, fluids are compressible. Gas is a fluid. Gas is compressible. Liquids are not compressible. The changing of volume when water is heated/cooled is due to the water becoming gaseous water. Hope you understand now.

in a perfect scientific world yeah... liquids arent compressible.... believe me that the density of water changes as you press them...

Lol thats not thought provoking at all. Solids are incompressible right? You put a rock that perfectly fits into a rubber ball, you cant press it. Liquids are like solids, just without a defined shape.

you literally saved my ass for my physics final. THANK YOU!!

Liquids are not compressible sir...