At the start there is vacuum in the bottle above the water. When the straw is lifted, the vacuum is strong enough to break the water barrier and the bottle sucks in air from outside. The vacuum inside the bottle is now filling with air, the Atmospheric pressure in the bottle pushes the water out.
It's just the same thing as plugging the straw with your finger, but instead, you're using the weight of the atmosphere to plug the hole when it goes below the other straw.
@@KillianTwewExactly, at first the total air pressure and water pressure inside the bottle at the intial depth of the red straw is greater than the air pressure from outside, not great enough for water to flow out through the top of the straw, but enough to prevent air from outside from moving into the bottle( water). Same with the blue straw. As the red straw is pulled upwards, the total air pressure and water pressure in the bottle through the straw decrease because the depth decrease, eventually reaching a depth in which air pressure from outside is greater than it. Thus air moves into the bottle(water) through the straw, and as air bubbles ascend to the top space in the bottle with air, the air pressure inside the bottle increases. Then total air pressure and water pressure at the depth of the blue straw then exceeds the pressure outside the it and pushes water out from the bottle through it! Pretty cool!!
I do not agree with what people say here and i'd like to explain my pov, i may be wrong though. If anyone thinks i'm wrong i'd be delighted to hear why ! In the very beginning, at water level we have atmospheric pressure, the height of water is the same in the straw and in the bottle, because the air in the bottle and in the straw are both atmospheric pressure. The pressure at the inlet of the blue straw is greater than atomospheric pressure though, since there is a certain height of water to be added. The pressure at the outlet is atmospheric pressure but there is also surface tension which helps maintain the equilibrium with the inlet pressure, therefore there's no flow. Everything is at equilibrium. Then the guy pinches the straw, which doesn't allow the air from the environment to get in. By lifting the straw while keeping it pinched, the air stuck is expanding, therefore lowering its pressure (pV=nRT, right hand side of the equation is constant but on the left side we raise V therefore to keep it constant p must be lowered). Now, still while lifting the straw pinching it, the air in the straw excerts a lower pressure on the water than the air in the bottle. Therefore, water is sucked through the red straw, lowering the air bottle pressure since it now expands because of the water flow in the red straw, until equilibrium is reached (pressure at "bottle level" is the same everywhere, so p_bottle = p_redStraw + pressure due to extra height of water in the red straw, with respect to the water level). Now we have reached equilibrium and the "highest height of water" has been raised. This is important since as mentionned before, for the blue straw, the inlet pressure depends on that highest height of water. Now when he finally stops pinching the straw, atmospheric pressure is back in the red straw, but this time we have built that extra height of water, which results in a greater water pressure at the inlet of blue straw. The inlet pressure being greater than the outlet pressure + surface tension, flow begins. Then due to inertia it keeps for a while
At first, the total air pressure and water pressure inside the bottle at the intial depth of the red straw is greater than the air pressure from outside, not great enough for water to flow out through the top of the straw, but enough to prevent air from outside from moving into the bottle( water). Same with the blue straw. As the red straw is pulled upwards, the total air pressure and water pressure in the bottle through the straw decrease because the depth decrease, eventually reaching a depth in which air pressure from outside is greater than it. Thus air moves into the bottle(water) through the straw, and as air bubbles ascend to the top space in the bottle with air, the air pressure inside the bottle increases. Then total air pressure and water pressure at the depth of the blue straw then exceeds the pressure outside the it and pushes water out from the bottle through it! Pretty cool!!
pagal ka bacha ia video ka lia tona itna ziwada likha ha oe apna rime waste kia ha is sa acha book nikal ka par laita pass ho jata😥😣😏🙄😶😑😐😗😆😀😁😉😙😚😊😂🤣😋☺🙂😎😃😄😍🤗🤔😘😅😮🤓😔😖😞😕😛🤐😯😜🙃😟
Thank you so much for explaining!! I watched the video so many times trying to understand what was going on, but only after reading and processing what you said I really got it!
@@magarbisheshvlog2214 omg you're so fucking smart for saying that! it makes you sound so cool, like you almost have a functional family to educate you on behaving like a normal kid! go fuck yourself
(I'll state what i understand from my previous studies) inside the bottle we have water vapor pressure because its a system and the water inside has an empty space above it so there will be some sort of vapor pressure even though it is room temperature (we don't necessarily need to reach boiling point for that, liquids have different vapor pressures in equilibrium states over a wide range of temperatures). This vapor pressure is not equal to the atmospheric pressure, yet not way too small for the atmospheric pressure to crash it. What i think happened is that at first, when the put the straw, he pinched it so that no more air get into the straw, and he dipped it until it reached it's initial position. The pressure in the straw is not equal to the atmospheric pressure either, according to the law of conservation of mass in fluid dynamics (venturi effect), since the area decreased(its narrow), the pressure increases as for p=a/m where m and p are inversely proportional. And since they did use an object like a staw, the action of pressing it downwards (even though it seems that it has a little pressure, it will affect the system, at this point, the system is not closed because due to the blue straw, it can lose mass, but in the initial position, where no matter entered or exited the system we can treat it as if it was closed until the water exits the blue straw) dipping the straw (till this level) will increase the pressure andeventually it was equalized with the outside pressure so that it stays at equilibrium (im talking about how it reached its initial position) so now we have the pressure inside the straw which is more than the atmospheric pressure, and its pressing on the water surface, the pinching was to keep the forces and pressure as desired and not to let any more air particles press into it to keep it at equilibrium, so when it was pressed downwards, according to Archimedes principle the water displacement will be equal to the volume of the straw, thus increasing the vapor pressure inside the system, and thus, equalizing it with the atmospheric pressure. Now we have a state of pressure equilbrium. And then, When the straw is lifted, the stress from inside the water particles of the high pressure is less since the water is exposed to less surface area,( the pressure decreases) and the atmospheric pressure on the straw will be greater than the vapor pressure(when the straw was lifted it was no longer equilibrium), thus pushing it downwards creating bubbles blubblubblubblub. Because the system before that was at equilibrium with its environment, no water leaked from the blue straw. But as the system had undergone stress according to Le Chatalier's principle, it will have a new vapor pressure equilibrium. This can be achieved by changing temperature and vapor pressure for a closed system, but since this system can no longer be treated as closed, the way it "copes" with the stress is through losing the mass it lost from the blue straw,(not the red staw obviously cuz atm pressure is higher) so the only exit is the blue straw that is not faced upwards thus the pressure still affects it but the net force is in a different direction, and the pressure affecting it from the right is less of coursw. So the water will flow to a certain amount until the system equilibrium is reached again. OH MY GOD I FEEL THAT ALL MY PHYSICAL CHEMISTRY GRADE 10 STUDIES HAVE LED TO THIS MOMENT
The straw is pulled up and the air is strong enough to put more air in the bottle allowing it to let water out as it can draw more air in to replace the water volume with air
If the red straw is lifted the amount of water over the blue straw is bigger. Now it's easier for water to flow(fall) sucking air through the thinner layer. Brilliant experiment😊🎉
The end of the straw that is outside the bottle is clogged. There is a hole in the side of the straw that is exposed when the straw is pulled up and allows the air to flow into the bottle. When the straw is pushed down the hole is pushed into the bottle. If you look close you can see it.
Nope, the water doesn't flow as long as he/she pinched the end of the straw. If the hole would be the solution, the water would flow regardless of the pinched end.
This is gravity no? The weight of water above the Blue straw is more than the weight of water in the straw, no? The Red straw just gets the water moving, no? Help🤪
So at the start, you have a bottle filled with water with two straws poking into it. We'll call the red one the source and the blue one the exit. In order for water to leave the bottle through the exit (which it wants to do), it needs to be able to replace the water it loses with air to maintain pressure inside the bottle. It must get this air from the source. At the same time, the air cannot enter the bottle through the source if it encounters too high of a pressure in the water. The lower in the bottle you go, the higher the water pressure is. So, when the source straw is raised and it gets to a part of the water with lower pressure, the air can overcome it and bubble into the bottle. Since the air can come in, the water can now leave, and it begins to leave through the exit. At the end, the source is pushed back down into higher pressure water, so air can no longer enter, and the flow stops. Sidenote: the reason the water doesnt just leave the exit straw while letting air enter past it is because of surface tension and capillary action. To put it simply, the water sticks to the sides and seals the straw.
I do not agree with what people say here and i'd like to explain my pov, i may be wrong though. If anyone thinks i'm wrong i'd be delighted to hear why ! In the very beginning, at water level we have atmospheric pressure, the height of water is the same in the straw and in the bottle, because the air in the bottle and in the straw are both atmospheric pressure. The pressure at the inlet of the blue straw is greater than atomospheric pressure though, since there is a certain height of water to be added. The pressure at the outlet is atmospheric pressure but there is also surface tension which helps maintain the equilibrium with the inlet pressure, therefore there's no flow. Everything is at equilibrium. Then the guy pinches the straw, which doesn't allow the air from the environment to get in. By lifting the straw while keeping it pinched, the air stuck is expanding, therefore lowering its pressure (pV=nRT, right hand side of the equation is constant but on the left side we raise V therefore to keep it constant p must be lowered). Now, still while lifting the straw pinching it, the air in the straw excerts a lower pressure on the water than the air in the bottle. Therefore, water is sucked through the red straw, lowering the air bottle pressure since it now expands because of the water flow in the red straw, until equilibrium is reached (pressure at "bottle level" is the same everywhere, so p_bottle = p_redStraw + pressure due to extra height of water in the red straw, with respect to the water level). Now we have reached equilibrium and the "highest height of water" has been raised. This is important since as mentionned before, for the blue straw, the inlet pressure depends on that highest height of water. Now when he finally stops pinching the straw, atmospheric pressure is back in the red straw, but this time we have built that extra height of water, which results in a greater water pressure at the inlet of blue straw. The inlet pressure being greater than the outlet pressure + surface tension, flow begins. Then due to inertia it keeps for a while
At the start there is vacuum in the bottle above the water. When the straw is lifted, the vacuum is strong enough to break the water barrier and the bottle sucks in air from outside. The vacuum inside the bottle is now filling with air, the Atmospheric pressure in the bottle pushes the water out.
Thanks a lot for explanation ☺🙏🏻
There is no absolutely no vacuum whatsoever in this video. That is a regular atmosphere in there.
It's just the same thing as plugging the straw with your finger, but instead, you're using the weight of the atmosphere to plug the hole when it goes below the other straw.
Yh
@@KillianTwewExactly, at first the total air pressure and water pressure inside the bottle at the intial depth of the red straw is greater than the air pressure from outside, not great enough for water to flow out through the top of the straw, but enough to prevent air from outside from moving into the bottle( water). Same with the blue straw. As the red straw is pulled upwards, the total air pressure and water pressure in the bottle through the straw decrease because the depth decrease, eventually reaching a depth in which air pressure from outside is greater than it. Thus air moves into the bottle(water) through the straw, and as air bubbles ascend to the top space in the bottle with air, the air pressure inside the bottle increases. Then total air pressure and water pressure at the depth of the blue straw then exceeds the pressure outside the it and pushes water out from the bottle through it!
Pretty cool!!
So simple and elegant. Both the experiment and the video
Thanks bro I have been searching for this kind of project❤
😊ridhaanshsatap
I do not agree with what people say here and i'd like to explain my pov, i may be wrong though. If anyone thinks i'm wrong i'd be delighted to hear why !
In the very beginning, at water level we have atmospheric pressure, the height of water is the same in the straw and in the bottle, because the air in the bottle and in the straw are both atmospheric pressure. The pressure at the inlet of the blue straw is greater than atomospheric pressure though, since there is a certain height of water to be added. The pressure at the outlet is atmospheric pressure but there is also surface tension which helps maintain the equilibrium with the inlet pressure, therefore there's no flow. Everything is at equilibrium. Then the guy pinches the straw, which doesn't allow the air from the environment to get in. By lifting the straw while keeping it pinched, the air stuck is expanding, therefore lowering its pressure (pV=nRT, right hand side of the equation is constant but on the left side we raise V therefore to keep it constant p must be lowered). Now, still while lifting the straw pinching it, the air in the straw excerts a lower pressure on the water than the air in the bottle. Therefore, water is sucked through the red straw, lowering the air bottle pressure since it now expands because of the water flow in the red straw, until equilibrium is reached (pressure at "bottle level" is the same everywhere, so p_bottle = p_redStraw + pressure due to extra height of water in the red straw, with respect to the water level).
Now we have reached equilibrium and the "highest height of water" has been raised. This is important since as mentionned before, for the blue straw, the inlet pressure depends on that highest height of water. Now when he finally stops pinching the straw, atmospheric pressure is back in the red straw, but this time we have built that extra height of water, which results in a greater water pressure at the inlet of blue straw. The inlet pressure being greater than the outlet pressure + surface tension, flow begins. Then due to inertia it keeps for a while
At first, the total air pressure and water pressure inside the bottle at the intial depth of the red straw is greater than the air pressure from outside, not great enough for water to flow out through the top of the straw, but enough to prevent air from outside from moving into the bottle( water). Same with the blue straw. As the red straw is pulled upwards, the total air pressure and water pressure in the bottle through the straw decrease because the depth decrease, eventually reaching a depth in which air pressure from outside is greater than it. Thus air moves into the bottle(water) through the straw, and as air bubbles ascend to the top space in the bottle with air, the air pressure inside the bottle increases. Then total air pressure and water pressure at the depth of the blue straw then exceeds the pressure outside the it and pushes water out from the bottle through it!
Pretty cool!!
Does it mean when the red straw goes up, it becomes low pressure and when the red straw goes back down it is high pressure? I want to know !! 🤔🤔
Who asked
pagal ka bacha ia video ka lia tona itna ziwada likha ha oe apna rime waste kia ha is sa acha book nikal ka par laita pass ho jata😥😣😏🙄😶😑😐😗😆😀😁😉😙😚😊😂🤣😋☺🙂😎😃😄😍🤗🤔😘😅😮🤓😔😖😞😕😛🤐😯😜🙃😟
Thank you so much for explaining!! I watched the video so many times trying to understand what was going on, but only after reading and processing what you said I really got it!
@@magarbisheshvlog2214 omg you're so fucking smart for saying that! it makes you sound so cool, like you almost have a functional family to educate you on behaving like a normal kid! go fuck yourself
Very nice experiment
Very cool. Simple yet complex.
(I'll state what i understand from my previous studies)
inside the bottle we have water vapor pressure because its a system and the water inside has an empty space above it so there will be some sort of vapor pressure even though it is room temperature (we don't necessarily need to reach boiling point for that, liquids have different vapor pressures in equilibrium states over a wide range of temperatures).
This vapor pressure is not equal to the atmospheric pressure, yet not way too small for the atmospheric pressure to crash it.
What i think happened is that at first, when the put the straw, he pinched it so that no more air get into the straw, and he dipped it until it reached it's initial position.
The pressure in the straw is not equal to the atmospheric pressure either, according to the law of conservation of mass in fluid dynamics (venturi effect), since the area decreased(its narrow), the pressure increases as for p=a/m where m and p are inversely proportional.
And since they did use an object like a staw, the action of pressing it downwards (even though it seems that it has a little pressure, it will affect the system, at this point, the system is not closed because due to the blue straw, it can lose mass, but in the initial position, where no matter entered or exited the system we can treat it as if it was closed until the water exits the blue straw) dipping the straw (till this level) will increase the pressure andeventually it was equalized with the outside pressure so that it stays at equilibrium (im talking about how it reached its initial position)
so now we have the pressure inside the straw which is more than the atmospheric pressure, and its pressing on the water surface, the pinching was to keep the forces and pressure as desired and not to let any more air particles press into it to keep it at equilibrium, so when it was pressed downwards, according to Archimedes principle the water displacement will be equal to the volume of the straw, thus increasing the vapor pressure inside the system, and thus, equalizing it with the atmospheric pressure.
Now we have a state of pressure equilbrium.
And then, When the straw is lifted, the stress from inside the water particles of the high pressure is less since the water is exposed to less surface area,( the pressure decreases) and the atmospheric pressure on the straw will be greater than the vapor pressure(when the straw was lifted it was no longer equilibrium), thus pushing it downwards creating bubbles blubblubblubblub.
Because the system before that was at equilibrium with its environment, no water leaked from the blue straw. But as the system had undergone stress according to Le Chatalier's principle, it will have a new vapor pressure equilibrium.
This can be achieved by changing temperature and vapor pressure for a closed system, but since this system can no longer be treated as closed, the way it "copes" with the stress is through losing the mass it lost from the blue straw,(not the red staw obviously cuz atm pressure is higher) so the only exit is the blue straw that is not faced upwards thus the pressure still affects it but the net force is in a different direction, and the pressure affecting it from the right is less of coursw. So the water will flow to a certain amount until the system equilibrium is reached again.
OH MY GOD I FEEL THAT ALL MY PHYSICAL CHEMISTRY GRADE 10 STUDIES HAVE LED TO THIS MOMENT
Tujhe pta hai ispe jyada reply kyoun nhi aaya kyounki koi use padha hi nhi😅
😂😂❤😅😮😢😊😊😊
Mein padha 😂😂😂@@hafizansari9356
UNDERRATED
The straw is pulled up and the air is strong enough to put more air in the bottle allowing it to let water out as it can draw more air in to replace the water volume with air
Its going to be a good idea for a water dispenser but its too small
scale it using leverage but it wouldn't be worth it at that point just look cool
oh yeah thats what i was thinking
he will explain after 5 minutes
If the red straw is lifted the amount of water over the blue straw is bigger. Now it's easier for water to flow(fall) sucking air through the thinner layer. Brilliant experiment😊🎉
It's hydronic pressure resisting atmospheric pressure when the straw is lower.
First thought to come to my mind: “woah that could make a sick bong”
Pov:you have science expo tomorrow
How to make this can you please explain😢
Thanks bro in my school i will going to do this ❤❤❤
Dear youtuber pleasd share the complete process, so that we may replicate it and see for ourselves. Regards
Thanks bro ,I was looking for an experiment for school to bring to school
❤❤🎉
The end of the straw that is outside the bottle is clogged. There is a hole in the side of the straw that is exposed when the straw is pulled up and allows the air to flow into the bottle. When the straw is pushed down the hole is pushed into the bottle. If you look close you can see it.
Nope, the water doesn't flow as long as he/she pinched the end of the straw. If the hole would be the solution, the water would flow regardless of the pinched end.
That is the most simple soda machine
Very interesting 👌
Here two forces are acting
Thurst by liquid
Air pressure by atmosphere
Oh, that noise. I can't handle that.
❤thans bro
This video invents a new type of water-vending system.
Love that so much !!!!
pleased to see it!
Wonderful🎉🎉🎉🎉
bro fr just made a water bottle bong lmao
😂 what I thought 😊
I like it
That is awesome 😮
Thank you bro im sure I ll win the best out of waste science project compitition
Super ❤
Is this how faucets work?
Does this experiment work ?
Yes of course.
Thank u so much mann
wah kiya bat hai
Is the blue straw having a hole in it where it meets red straw? And does the hole in blue clamp shut the red straw?
А будет ли такой же эффект с водкой? А то, когда руки трясутся... . Надо попробовать.
MAN RESPECT
Like it🎉🎉🎉
Please can you tell us how to make this🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏🙏
Sir kase bnaya jata hai video dhaliye
Wow
ok studnets, present yr thesis tomorrow
How do we do it
What kind of Law is this in Science?
Is it a bong... sounds like a bong.
Full video?? Pls
It could’ve Ben a perfect loop but they fucked it up by a cm
Straw la yentha gum pottinga
Please tell how to make it
таким образом 1 атмосфера это 2 сантиметра ?🙃 а если увеличить диаметр бутылки…
Cool
🎉🎉🎉
My bong!
একটু চিন্তা করার পর কাহিনি টা বুঝতে পারলাম
Thanks for your oidia😊
Is this the experiment of Air Exerts pressure in upward direction
What the formula and rule it has ?some one explain me please ...........
This is gravity no? The weight of water above the Blue straw is more than the weight of water in the straw, no? The Red straw just gets the water moving, no? Help🤪
What is happening..can you explain the science.
So at the start, you have a bottle filled with water with two straws poking into it. We'll call the red one the source and the blue one the exit. In order for water to leave the bottle through the exit (which it wants to do), it needs to be able to replace the water it loses with air to maintain pressure inside the bottle. It must get this air from the source. At the same time, the air cannot enter the bottle through the source if it encounters too high of a pressure in the water. The lower in the bottle you go, the higher the water pressure is. So, when the source straw is raised and it gets to a part of the water with lower pressure, the air can overcome it and bubble into the bottle. Since the air can come in, the water can now leave, and it begins to leave through the exit. At the end, the source is pushed back down into higher pressure water, so air can no longer enter, and the flow stops.
Sidenote: the reason the water doesnt just leave the exit straw while letting air enter past it is because of surface tension and capillary action. To put it simply, the water sticks to the sides and seals the straw.
is this about air pressure and altitudes?@@LilySanWT
@@Reimiy nothing to do with altitude, just simple physics
I do not agree with what people say here and i'd like to explain my pov, i may be wrong though. If anyone thinks i'm wrong i'd be delighted to hear why !
In the very beginning, at water level we have atmospheric pressure, the height of water is the same in the straw and in the bottle, because the air in the bottle and in the straw are both atmospheric pressure. The pressure at the inlet of the blue straw is greater than atomospheric pressure though, since there is a certain height of water to be added. The pressure at the outlet is atmospheric pressure but there is also surface tension which helps maintain the equilibrium with the inlet pressure, therefore there's no flow. Everything is at equilibrium. Then the guy pinches the straw, which doesn't allow the air from the environment to get in. By lifting the straw while keeping it pinched, the air stuck is expanding, therefore lowering its pressure (pV=nRT, right hand side of the equation is constant but on the left side we raise V therefore to keep it constant p must be lowered). Now, still while lifting the straw pinching it, the air in the straw excerts a lower pressure on the water than the air in the bottle. Therefore, water is sucked through the red straw, lowering the air bottle pressure since it now expands because of the water flow in the red straw, until equilibrium is reached (pressure at "bottle level" is the same everywhere, so p_bottle = p_redStraw + pressure due to extra height of water in the red straw, with respect to the water level).
Now we have reached equilibrium and the "highest height of water" has been raised. This is important since as mentionned before, for the blue straw, the inlet pressure depends on that highest height of water. Now when he finally stops pinching the straw, atmospheric pressure is back in the red straw, but this time we have built that extra height of water, which results in a greater water pressure at the inlet of blue straw. The inlet pressure being greater than the outlet pressure + surface tension, flow begins. Then due to inertia it keeps for a while
😳😳😳😳👏👏👏
how can I make this?
Wow to make
How you done it
MADE IN SOVIET UNION
What is the reason ??.....
What is the theory about it
👍✅
How bib. You😮
The perfect loop doesn’t exi-
Yea it doesn't exist
How to make this
How 🤔😱☺️
😢😂😮🎉❤
Is it work??????
पूर्ण विडिओ
Thanks to you
Can you send me same lines for saying in school please 🙏 🏫
Super🎉🎉
Holy shit
Bro ப்ரோ இது எப்படி பண்ணனும்
यह तेरा वर्क नहीं करता😂😂😂😂😂😂😂😂😂😂
Ну да,дырочка в трубочке которая пропускает воздух,а другая блокирует ,физика обычная
HOW THE FU-
1) C.Pull
2) B. Shape
3) C. Muscular force
Thank you sir
how
Kk
I finally know how does tap work
Bolammare video
Paraku don't try
???!
Reason please😢
Upper leker ja raha h pipe ko to pipe me se hava niche aa raha h or हवा से पानी पे pressure lag रहा है ❤
@@AshishMeena-wz2dqcan you tell me what is it related to? What does it prove?
Fake fake fake 😭😭😭
When engineers take a physics course and think they know things 😂
Not worked
It's fake
EBUONO PER DSRE DA BERE PER I ANIMALI ESEMPIO
100%real