Calculation of Water Suction in a Closed Container - The container is closed: Atmospheric pressure no longer affects the interior of the container. Calculation of pressure inside the container: - The pressure (P_tank) inside the container is determined by the hydrostatic pressure of the water in the container. - P_tank = ρgh, where: - ρ = 1000 kg/m³ - g = 9.81 m/s² - h = 0.8 meters (height of water in the container) - P_tank = 1000 kg/m³ * 9.81 m/s² * 0.8 m = 7848 Pa Calculation of pressure in the tube: - The pressure (P_tube) in the tube must be less than P_tank to create suction. - For simplicity, we assume that friction losses are negligible and the velocity of the flowing water is constant. - P_tube = P_tank - ρgh, where h = 1.5 meters (length of the tube) - P_tube = 7848 Pa - 1000 kg/m³ * 9.81 m/s² * 1.5 m = -5984 Pa Conclusion: - The P_tube (-5984 Pa) is negative, which means there is a vacuum in the tube. - Therefore, water suction from the system is feasible. Notes: - In this case, suction is solely due to the hydrostatic pressure of the water in the container. - The absence of atmospheric pressure in the container allows for the creation of a vacuum in the tube, reducing the internal pressure and enabling the flow of water. - The velocity of the flowing water and the volume of water suctioned per second can be calculated using the same formulas used previously, replacing Patm with P_tank. Additional observations: - The presence of friction losses in the tube will reduce P_tube and therefore the velocity of the flowing water. - Changing the height of the water in the container will affect P_tank and consequently P_tube. - The temperature of the water can also affect its density and thus the hydrostatic pressure. Overall, water suction in a closed container is feasible, but the velocity of the flowing water and the volume suctioned depend on various factors.
Explanation of Operation of a Pump-less Suction System Operation: In this system, water suction is achieved solely by the hydrostatic pressure exerted by the weight of the water in the container. The pressure at the bottom of the container (P_tank) is greater than the pressure in the tube (P_tube) due to the elevation difference. The pressure difference (ΔP = P_tank - P_tube) pushes the water up the tube, creating flow. Compared to a system with a pump: - Advantages: - Simplicity: No pump is required, reducing cost and complexity. - Reliability: Fewer moving parts, reducing the risk of failure. - Low operating cost: No energy is required for operation. - Disadvantages: - Lower flow rate: The flow rate is limited by hydrostatic pressure, so it may be slow. - Limited lifting height: The maximum elevation difference that can be pumped is limited by hydrostatic pressure. - Dependence on slope: Operation relies on the slope of the terrain, making it unsuitable for horizontal installations. Applications: This system can be useful in situations where simplicity, reliability, and low operating cost are more important than flow rate. - Agriculture: For irrigating fields on slopes with low water demand. - Hydraulic works: For supplying small tanks or reservoirs at low elevations. - Education: For demonstrating principles of hydrostatics and fluid flow. In summary: Implementing a pump-less water suction system is feasible, but requires careful design, considering limitations in flow rate, lifting height, and dependence on slope.
Key Stages of Illiteracy 1. Primary Illiteracy: This stage is characterized by a complete inability to read and write. Individuals in this stage have not received any basic education or have dropped out of school very early. 2. Functional Illiteracy: At this stage, the individual may have basic reading and writing skills but is unable to use them effectively in everyday life. They can read simple words or phrases but struggle with more complex texts and concepts. 3. Secondary Illiteracy: This stage involves individuals who once had satisfactory reading and writing skills but have lost them due to a lack of practice and use. It often occurs in adults who do not regularly use their skills. 4. Digital Illiteracy: This refers to the inability to use modern technologies, such as computers, the internet, and smartphones. This form of illiteracy is becoming increasingly significant in the digital age.
@@georgios9922 I'm sorry that stating the obvious, has upset you. By the way the internet is full of this sh1t, that just gets 'clicks' to make money. UA-cam video: 'This Siphon Works But not for Long' by Land to Mouth shows more garbage that fails to work in reality. So, grow and face facts, chum.
Explanation of Operation of a Pump-less Suction System Operation: In this system, water suction is achieved solely by the hydrostatic pressure exerted by the weight of the water in the container. The pressure at the bottom of the container (P_tank) is greater than the pressure in the tube (P_tube) due to the elevation difference. The pressure difference (ΔP = P_tank - P_tube) pushes the water up the tube, creating flow. Compared to a system with a pump: - Advantages: - Simplicity: No pump is required, reducing cost and complexity. - Reliability: Fewer moving parts, reducing the risk of failure. - Low operating cost: No energy is required for operation. - Disadvantages: - Lower flow rate: The flow rate is limited by hydrostatic pressure, so it may be slow. - Limited lifting height: The maximum elevation difference that can be pumped is limited by hydrostatic pressure. - Dependence on slope: Operation relies on the slope of the terrain, making it unsuitable for horizontal installations. Applications: This system can be useful in situations where simplicity, reliability, and low operating cost are more important than flow rate. - Agriculture: For irrigating fields on slopes with low water demand. - Hydraulic works: For supplying small tanks or reservoirs at low elevations. - Education: For demonstrating principles of hydrostatics and fluid flow. In summary: Implementing a pump-less water suction system is feasible, but requires careful design, considering limitations in flow rate, lifting height, and dependence on slope.
В соответствии с законом Паскаля, жидкость передаёт оказываемое на неё давление во всех направлениях одинаково. В открытых сосудах, атмосферное давление над каждым из них одинаково, значит, и давление жидкости на стенки сосудов будет одинаковым на любом уровне. Даже если один сосуд выше другого, соответственно образовавшееся внутреннее падение давления в верхнем сосуде и затягивает воду из второго сосуда которое внизу, что бы восстановить давление.
Exactly! Many kids spend at least 12 years in school, then many spends several years in college with lot of money. And thousands of thousands of hrs watching other sharing their personal experiences. But they ain't capable of learning. It's sad!
fizik kurallarına aykırı.aşadaki su enerji tüketilmeden yukarı çıkmaz.su devamları aşağı akar o da yerçekimi kuvveti olduğundan.yer çekimi kuvveti tersine ondan daha fazla kuvvetle uygulandığında ancak yukarı gidebilir.kuvvet tükendiğinde suyun akışının durduğunu göreceksiniz.
J'imagine qu'il y a des pertes de charges qui contraignent à réamorcer périodiquement le système. Au final tu dépenses l'énergie économisée dans ce réamorçage. Dans les pompes bélier aussi, il y a une performance incroyable, mais quand même une dépense d'énergie hydraulique due à la perte d'eau.
The suction is about 60 cm. The gallen will stand for that, but the whole set up is fake. No siphon can lift any water up, so there is either a pump or air is let in and the tank drains.
Moi j'ai expérimenté ce principe. Ça marche très bien. L'eau qui est dans le bidon en coulant cré un vide qui aspire l'eau depuis le puit. Seulement il faut s'assurer que le bidon ne va pas se bomber. De préférence un bidon métallique et fermé hermétiquement pour éviter que l'air entre.
@@gbatisambire8064 Sorry, but no siphon can lift any water up from a well. Water level in source must be higher than output for a siphon to work. (Sorry for writing in English. I guess Norwegian would be even more difficult)
@@zov333 ты, я так понимаю, доучился в школе? Попробуй слить бензин с помощью шланга и рта в канистру, которая находится ВЫШЕ бака из которого сливаешь.
STUPID needs to open the eyes and minds to enjoy the world of physics. 🔸 The water being sucked up from the well to bottle because the outlet water generated enough vacuum to suck the water up. 🔸 Because the bottle is AIR TIGHT so when 1. No vacuum (at the beginning) then water will flow to the outlet (this is part of SIPHON = water from up to lower). 2. When more water out it'll generate VACUUM then the vacuum will suck water up from the well to fill the bottle. It's the very basic PHYSICS student should have learned in 6-7 grade.
Definitely the water will stop to flow after few litters of water equivalent to the initial amount added water in the in the blue container. This is in accordance to physical law.
It must work, the water flowing from the blue container corresponds to the volume of air siphoned into the small pipes in the well. This creates a vacuum which causes the water to rise. exactly what you do to siphon fuel into your motorcycle tank with your mouth. Deeper is the well, larger the blue container should be. It's the principle, but the flow is not too hight. Anyway, smart system 👍👍
@@johnsomerset1510 You can if there is a negative pressure, similar to sucking water by your mouth through a hose. The Big jug acts like a negative pressure, similar to using your mouth to suck soda pop through a straw. What is misleading in this video, is that the well is NOT very deep. as the water flows out of the jug, it creates a negative pressure inside the jug. When this happens it is like your mouth sucking on a straw. That negative pressure will start to draw water out of the well. The deeper the well, the bigger the jug must be. The larger the pipes the bigger the jug must be. So yes, this will work very "well" for shallow wells. For wells that are 100 feet, it will not work at all, unless the jug is extremely large. Thus, a 100 foot well would be impractical to use such a system.
@@woodenclocks6531 Have you tried it? Others have and their videos are online and disprove it! Show a little common sense and ask yourself why anyone bothers buy well pumps, instead of using this 'miracle method' of extracting water, shown here. Let me know why you think everyone is needlessly wasting their money.
Сдесь конечно чушь показана, но можно собрать конструкцию которая будет сама качать воду из колодца, используя разницу температур холодной воды в колодце и окружающей среды, но что-бы возникла подъемная сила, способная доставать воду с нескольких метров, надо использовать довольно крупную ёмкость и систему клапанов. Суть в том что если в емкость на жаре впрыскнуть холодную воду, то возникает падение давления, которое и будет всасывать воду из колодца. Скорость будет не ахти, но работать будет.
@@ДмитрийЛамонов-к6фnow, you're talking about another level of educational that most present students have no clue. Here is an simple example for some to try. 🔸 Put a FLATTENED BALL in boiling water to see the magic 🔸 Put a light object inside a sealed bottle, than squeeze the bottle to see the magic. There're thousands of them really to learn.
The thing behind it is called PHYSICS and EDUCATIONAL. And educational meaning the money your parents feeding you for doing nothing but being good person and studying good. If you're old enough but still can't understand the very basic of this PHYSICS then you need to learn with open minded. This is the very very very basic, there're several similar but little more complex.
Well looks real. I saw an hidraulic engineer making the same as on the video, but a little different. He explained that the atmospheric pressure pushes the water
If this worked, then you could pump up water (for free) into Lake Mead, and generate electricity with the dam in perpetuity. If something looks too good to be true, it is not true 😂
Fast fwd to 6:14 and you will see the water level in that concrete chamber.. None of such videos dare to show the water levels in that well and how efficient is their invention.
On 5:05 you can see some liquid vacuum in the small bottle. It helps to rise water from the well. The main problem is to get cheap liquid vacuum cause it costs a lot in stores. Hope the author will make videoinstruction how to build low cost liquid vacuum generator.
At CERN they produce liquid vacuum using dark energy. But that is difficult to make because dark energy can only be extracted from neutrinos. Maybe it is possible to make liquid vacuum from fluid dynamics?
In general, the diameter of the pipe will depend on the size of container, the strength of container, and how fast\much water you want to pump. Then the size of input and output can be important too. Few basic laws of physics 🔸 If the outlet is larger than input then will soon run out of water. 🔸 If output is larger than the strength of the container, then it will crush the container. Yes, it can crush steel barrel They're several free energy systems, and some works best with some specific setting. This system, I think you can use same diameter for both IN and OUT. For RAM PUMP then most people suggest the INPUT is 2X larger than output. How BIG? I've seen steel pipe nearly 1 meter (RAM PUMP), and some RAM PUMP delivers water 5-10 km.
Even if the faucet had a check valve, wouldn't the air pressure sucking it up and the weight of the water balance out somewhere and stop it? A mechanism that converts potential energy into other potential energy. There's no way you can do it infinitely.
1. give it an electric generator, 2. run the water in the yellow bucket into the well again, 3. make lots of perpetual machines like that, 4. then you can start selling electricity and become a billionaire. 5. finally, wake up from your dream and work to make real money in real life
If this was possible the whole world could have infinite electricity through hydropower which is impossible. Real world works differently than fantasy unfortunately
Very smart design , I think this design would work without the upside down bottle because it works on the water replacement from inside the big bottle has all it takes to get it moving you can try it on , anyway you did a great job and very creative, thank you.
The small bottle comes into use when you turn off the water tap it allows the water in the system for somewhere to go while the system relaxes so when you next turn on the tap you have water available to draw off while the blue tank. The blue tank incidentally will suffer from negative pressure and could collapse in on itself should it become too warm in the sunshine.
@@AnthonyBarry-q1i The small bottle is only a little expansion of the volume in the blue tank. No need all. With no foot valve, the blue tank vill be fine in rain and sun, no problem. But, this system can only work if the water level in the well is higher than the outlet, as with any siphon.
The SEALED bottle to generate SUCTION to suck water up from the well. The bottle needs to be 100% SEALED no leak. The output needs a good flow to generate a VACUUM. I've tested the system without the additional clear plastic bottle (at output) and I guess this helps generating stronger vacuum. If you try without the additional bottle, then you might need a longer output hose to generate enough vacuum.
cuanto más profundo es, más grande debe ser el recipiente azul; es el volumen de agua de este recipiente el que atrae aire hacia la tubería del pozo y hace que el agua suba. sifonando
I made this with a very strong polyethylene barrel and it totally collapsed even when I put inside a wooden frame. It never pulled any water up from the well and so was rather disappointed that this was yet another fake video made only to get views.
Crap, if the vacuum pressure in the tank can suck up the water in the well, this pressure will immediately collapse the plastic tank. If the plastic bottle does not collapse, the vacuum pressure will suck the water out from the faucet. not without sucking down the well. because the pressure column in the well is higher than at the water outlet. The video is meant to entertain and trick viewers.
2 comments : 1. To fill up the barrel, it is more easy to take out the barrell cover... 2. To suck from deep, need that the discharge pipe to be bigger than suction. But must keep an eye to the level : the discharging it is faster than filling. It WORK. It is pure pfizics
Two comments: 1: How do you refill the system, tubes are glued and fixed. 2: No need for bigger discharge, the tubes can be any size. Even the input may be 20 cm and the output 2,5 cm. BUT, for this to work, the water level in the well must be higher than the output from the system. Ii other words, you have to dig a deep hole for the discharge!
@@NoName-od3fv Не русские наизобретали в последнее время столько всякой херни, которая на деле не работает, а такие как ты об этом почему-то молчат к чему-бы это?
The physics is the vacuum generated as the barrel empties. The depth from which it can pull the water will be limited by the amount vacuum. Initial energy is filling up the vacuum tank. The smaller bottle has a questionable role! Faster outlet(wider pipe) would generate faster vacuum. Just thoughts. Need a field trial!
@@curiouscynic4357 We fully agree, it does not work in this setup. When I was talking about a ‚siphon‘ my understanding is that this construction could function as a siphon with a priming barrel. For this apparatus to work as a siphon the source must be higher than the outlet, as with any siphon. So is the apparatus a „siphon“? Yes, but no. Depends on how you Interpret „siphon“, i.e. mechanics or function. Now, there exists a patent that shows a siphon that really can pump water up about 6-8 m in an intermittent cycle. It works, but is tricky to tune. In short: given an ordinary working siphon. At the top point install a small vessel. There are 3 valves to the vessel, input, output and drain. Drain is closed and the two others are open. The siphon is running. Close input and output. Open drain and let go of the water in the vessel. Close drain, open the two others and in some time the siphon will refill the vessel 100% with water. Repeat. The exit from the vessel must be from the tom do get all air out. The exit tube must be long enough to get the siphon restarted and refilled with water. It works, but is very sophisticated using water to manipulate the timing and movement of the valves.
Как много чудесного в окружающем мире! Особенно если не учиться в школе. Количество чудес вырастает неимоверно.
Satire bro😂😂
aprendi sobre gravidade indo a escola!
@@doremifa_sollasido what is satire bro , they want slaves from schools
Я бы сказал чудес и разочарований! На видео полная лажа- это так не работает! И слышен звук насоса!)
É FAKE KKKK
Nice pump 😂👍
It would have been nice to have a view down the well to see the pump.
Calculation of Water Suction in a Closed Container
- The container is closed: Atmospheric pressure no longer affects the interior of the container.
Calculation of pressure inside the container:
- The pressure (P_tank) inside the container is determined by the hydrostatic pressure of the water in the container.
- P_tank = ρgh, where:
- ρ = 1000 kg/m³
- g = 9.81 m/s²
- h = 0.8 meters (height of water in the container)
- P_tank = 1000 kg/m³ * 9.81 m/s² * 0.8 m = 7848 Pa
Calculation of pressure in the tube:
- The pressure (P_tube) in the tube must be less than P_tank to create suction.
- For simplicity, we assume that friction losses are negligible and the velocity of the flowing water is constant.
- P_tube = P_tank - ρgh, where h = 1.5 meters (length of the tube)
- P_tube = 7848 Pa - 1000 kg/m³ * 9.81 m/s² * 1.5 m = -5984 Pa
Conclusion:
- The P_tube (-5984 Pa) is negative, which means there is a vacuum in the tube.
- Therefore, water suction from the system is feasible.
Notes:
- In this case, suction is solely due to the hydrostatic pressure of the water in the container.
- The absence of atmospheric pressure in the container allows for the creation of a vacuum in the tube, reducing the internal pressure and enabling the flow of water.
- The velocity of the flowing water and the volume of water suctioned per second can be calculated using the same formulas used previously, replacing Patm with P_tank.
Additional observations:
- The presence of friction losses in the tube will reduce P_tube and therefore the velocity of the flowing water.
- Changing the height of the water in the container will affect P_tank and consequently P_tube.
- The temperature of the water can also affect its density and thus the hydrostatic pressure.
Overall, water suction in a closed container is feasible, but the velocity of the flowing water and the volume suctioned depend on various factors.
Explanation of Operation of a Pump-less Suction System
Operation:
In this system, water suction is achieved solely by the hydrostatic pressure exerted by the weight of the water in the container. The pressure at the bottom of the container (P_tank) is greater than the pressure in the tube (P_tube) due to the elevation difference. The pressure difference (ΔP = P_tank - P_tube) pushes the water up the tube, creating flow.
Compared to a system with a pump:
- Advantages:
- Simplicity: No pump is required, reducing cost and complexity.
- Reliability: Fewer moving parts, reducing the risk of failure.
- Low operating cost: No energy is required for operation.
- Disadvantages:
- Lower flow rate: The flow rate is limited by hydrostatic pressure, so it may be slow.
- Limited lifting height: The maximum elevation difference that can be pumped is limited by hydrostatic pressure.
- Dependence on slope: Operation relies on the slope of the terrain, making it unsuitable for horizontal installations.
Applications:
This system can be useful in situations where simplicity, reliability, and low operating cost are more important than flow rate.
- Agriculture: For irrigating fields on slopes with low water demand.
- Hydraulic works: For supplying small tanks or reservoirs at low elevations.
- Education: For demonstrating principles of hydrostatics and fluid flow.
In summary:
Implementing a pump-less water suction system is feasible, but requires careful design, considering limitations in flow rate, lifting height, and dependence on slope.
@@georgios9922 Haha. What a load of nonsense! If it were all true, then obviously nobody would bother to buy pumps.
Key Stages of Illiteracy
1. Primary Illiteracy: This stage is characterized by a complete inability to read and write. Individuals in this stage have not received any basic education or have dropped out of school very early.
2. Functional Illiteracy: At this stage, the individual may have basic reading and writing skills but is unable to use them effectively in everyday life. They can read simple words or phrases but struggle with more complex texts and concepts.
3. Secondary Illiteracy: This stage involves individuals who once had satisfactory reading and writing skills but have lost them due to a lack of practice and use. It often occurs in adults who do not regularly use their skills.
4. Digital Illiteracy: This refers to the inability to use modern technologies, such as computers, the internet, and smartphones. This form of illiteracy is becoming increasingly significant in the digital age.
@@georgios9922 I'm sorry that stating the obvious, has upset you. By the way the internet is full of this sh1t, that just gets 'clicks' to make money. UA-cam video: 'This Siphon Works But not for Long' by Land to Mouth shows more garbage that fails to work in reality. So, grow and face facts, chum.
Explanation of Operation of a Pump-less Suction System
Operation:
In this system, water suction is achieved solely by the hydrostatic pressure exerted by the weight of the water in the container. The pressure at the bottom of the container (P_tank) is greater than the pressure in the tube (P_tube) due to the elevation difference. The pressure difference (ΔP = P_tank - P_tube) pushes the water up the tube, creating flow.
Compared to a system with a pump:
- Advantages:
- Simplicity: No pump is required, reducing cost and complexity.
- Reliability: Fewer moving parts, reducing the risk of failure.
- Low operating cost: No energy is required for operation.
- Disadvantages:
- Lower flow rate: The flow rate is limited by hydrostatic pressure, so it may be slow.
- Limited lifting height: The maximum elevation difference that can be pumped is limited by hydrostatic pressure.
- Dependence on slope: Operation relies on the slope of the terrain, making it unsuitable for horizontal installations.
Applications:
This system can be useful in situations where simplicity, reliability, and low operating cost are more important than flow rate.
- Agriculture: For irrigating fields on slopes with low water demand.
- Hydraulic works: For supplying small tanks or reservoirs at low elevations.
- Education: For demonstrating principles of hydrostatics and fluid flow.
In summary:
Implementing a pump-less water suction system is feasible, but requires careful design, considering limitations in flow rate, lifting height, and dependence on slope.
But this is no pump! It is a simple siphon and no siphon can lift any water to a higher level. This video is a scam!
Very good ❤
it's work in this video, in real life, you need water pump to make it work 😌. Anyway, it's entertaiment video, thanks
I'll finally understand perhaps. It's nice.
Если в школе не учится-весь мир становится волшебным
В соответствии с законом Паскаля, жидкость передаёт оказываемое на неё давление во всех направлениях одинаково. В открытых сосудах, атмосферное давление над каждым из них одинаково, значит, и давление жидкости на стенки сосудов будет одинаковым на любом уровне. Даже если один сосуд выше другого, соответственно образовавшееся внутреннее падение давления в верхнем сосуде и затягивает воду из второго сосуда которое внизу, что бы восстановить давление.
@@DmitriyBril Сказочник.
yes kkkkk fake
Exactly! Many kids spend at least 12 years in school, then many spends several years in college with lot of money. And thousands of thousands of hrs watching other sharing their personal experiences.
But they ain't capable of learning. It's sad!
actually you succeeded. 2,3 million watching ,1000 comment
mas é FAKE KKKK
fizik kurallarına aykırı.aşadaki su enerji tüketilmeden yukarı çıkmaz.su devamları aşağı akar o da yerçekimi kuvveti olduğundan.yer çekimi kuvveti tersine ondan daha fazla kuvvetle uygulandığında ancak yukarı gidebilir.kuvvet tükendiğinde suyun akışının durduğunu göreceksiniz.
YES . Isso é FAKE KKKK
Nic so beautiful
Nice pump and switch😂😂😂😂 the way the water come out explain it all
Если бы такое было возможно, то в каждом доме был бы вечный двигатель и бесплатное электричество.
J'imagine qu'il y a des pertes de charges qui contraignent à réamorcer périodiquement le système. Au final tu dépenses l'énergie économisée dans ce réamorçage.
Dans les pompes bélier aussi, il y a une performance incroyable, mais quand même une dépense d'énergie hydraulique due à la perte d'eau.
fake kkkk
Good job my friend
É FAKE , Por isso nao mostraram o poço kkkkkkkkk
there must be a pump underneath because to raise the water there's no way that a thin gallon can hold it to the vacuum
The suction is about 60 cm. The gallen will stand for that, but the whole set up is fake. No siphon can lift any water up, so there is either a pump or air is let in and the tank drains.
Yes youre right ,I tuink it is a scam
Moi j'ai expérimenté ce principe. Ça marche très bien. L'eau qui est dans le bidon en coulant cré un vide qui aspire l'eau depuis le puit. Seulement il faut s'assurer que le bidon ne va pas se bomber. De préférence un bidon métallique et fermé hermétiquement pour éviter que l'air entre.
@@gbatisambire8064 Sorry, but no siphon can lift any water up from a well. Water level in source must be higher than output for a siphon to work. (Sorry for writing in English. I guess Norwegian would be even more difficult)
@@kjellg6532사이펀원리 아닙니다. 진공압방식 입니다.사기 아닙니다. 정상작동합니다. 우물이 깊은경우 200리터 드럼통으로 만듭니다.
धन्यबाद धेरै राम्रो
Hoakx
yes kkkkkk
Amazing.
Thank You.
Покажи насос в колодце)
Иди в школу поучись. А как бензин сливали раньше. только шланг и рот.
@@zov333 ты, я так понимаю, доучился в школе? Попробуй слить бензин с помощью шланга и рта в канистру, которая находится ВЫШЕ бака из которого сливаешь.
yes kkkkkkkk
xem kĩ video thấy khi nước bắt đầu gần hết,,bơm chảy xuống giật bồn nước rung rung,,video giải trí 😂😂😂😂
STUPID needs to open the eyes and minds to enjoy the world of physics.
🔸 The water being sucked up from the well to bottle because the outlet water generated enough vacuum to suck the water up.
🔸 Because the bottle is AIR TIGHT so when
1. No vacuum (at the beginning) then water will flow to the outlet (this is part of SIPHON = water from up to lower).
2. When more water out it'll generate VACUUM then the vacuum will suck water up from the well to fill the bottle.
It's the very basic PHYSICS student should have learned in 6-7 grade.
Definitely the water will stop to flow after few litters of water equivalent to the initial amount added water in the in the blue container. This is in accordance to physical law.
It must work, the water flowing from the blue container corresponds to the volume of air siphoned into the small pipes in the well. This creates a vacuum which causes the water to rise. exactly what you do to siphon fuel into your motorcycle tank with your mouth. Deeper is the well, larger the blue container should be. It's the principle, but the flow is not too hight. Anyway, smart system 👍👍
@@jermaup02 You can't syphon water up hill.
@@johnsomerset1510 You can if there is a negative pressure, similar to sucking water by your mouth through a hose.
The Big jug acts like a negative pressure, similar to using your mouth to suck soda pop through a straw.
What is misleading in this video, is that the well is NOT very deep. as the water flows out of the jug, it creates
a negative pressure inside the jug. When this happens it is like your mouth sucking on a straw. That negative
pressure will start to draw water out of the well.
The deeper the well, the bigger the jug must be. The larger the pipes the bigger the jug must be.
So yes, this will work very "well" for shallow wells. For wells that are 100 feet, it will not work at all, unless
the jug is extremely large. Thus, a 100 foot well would be impractical to use such a system.
@@woodenclocks6531 Have you tried it? Others have and their videos are online and disprove it! Show a little common sense and ask yourself why anyone bothers buy well pumps, instead of using this 'miracle method' of extracting water, shown here. Let me know why you think everyone is needlessly wasting their money.
굿굿
아주좋은 아이디어 감사합니다❤❤
Совершение работы по поднятию воды без затраты энергии. Бред, не бывает, развод. Вечный двигатель.
chamamos isso aqui no brasil de carneiro hidraulico! mas e limitado o seu uso!
Сдесь конечно чушь показана, но можно собрать конструкцию которая будет сама качать воду из колодца, используя разницу температур холодной воды в колодце и окружающей среды, но что-бы возникла подъемная сила, способная доставать воду с нескольких метров, надо использовать довольно крупную ёмкость и систему клапанов. Суть в том что если в емкость на жаре впрыскнуть холодную воду, то возникает падение давления, которое и будет всасывать воду из колодца. Скорость будет не ахти, но работать будет.
@@prof.edsonsilva5127 isso não tem nada a ver com um carneiro! o funcionamento do carneiro respeita as leis da fisica kkkk
@@ДмитрийЛамонов-к6фnow, you're talking about another level of educational that most present students have no clue.
Here is an simple example for some to try.
🔸 Put a FLATTENED BALL in boiling water to see the magic
🔸 Put a light object inside a sealed bottle, than squeeze the bottle to see the magic.
There're thousands of them really to learn.
Good idea
Good thing
Почему не показали, кто там сидит в колодце? 🤣
И так ясно. Водяной.🤓
Genius!
5:58 the electric pump turns on
Di dunia ini tidak ada yang abadi, bahkan untuk sebuah energi. Iya kali bisa mengalir terus-menerus, pasti ada sesuatu dibaliknya.
The thing behind it is called PHYSICS and EDUCATIONAL. And educational meaning the money your parents feeding you for doing nothing but being good person and studying good.
If you're old enough but still can't understand the very basic of this PHYSICS then you need to learn with open minded. This is the very very very basic, there're several similar but little more complex.
意味ありげな透明のペットボトルを取り付けるなど芸が細かいですね。5:55に誰かが水道の蛇口をひねったのかな。
vbravoo sister
Bagus..aku suka pekerjaan ini❤👍❤
your idea is good thank for you.
สวัสดีครับ แวะมาเยี่ยมชมครับ
Well looks real. I saw an hidraulic engineer making the same as on the video, but a little different. He explained that the atmospheric pressure pushes the water
fake
I´m a Mexican living in Ecuador for 6 years.
Sooooooo????!!!
If you really don't know the LAW of PHYSICS you will BELIEVE this SHAMMING plumbing 👈🤣😂🤣
wander foul i like it excellent idea boos...
What is the color of the submersible electric pump in the well?🤣 Well done, you proved that pumps can send water out of the well.
Just try bro.
"It's just a game, because she definitely uses an electric water pump placed inside the well."
What mentality is happening in these guys to show fake and unrealistic videos
They dont show the submersible pump underneath the pvc pipe
😂😂😂😂😂
❤idufgjf cómo se saca cómo es el señor agarra mucha agua Yo también quiero que no😂😂😢 por qué no me cae mal el agua de mi casa
@@ernxyoung2491
YES kkkkkkk
very nice idea
If this worked, then you could pump up water (for free) into Lake Mead, and generate electricity with the dam in perpetuity. If something looks too good to be true, it is not true 😂
Fast fwd to 6:14 and you will see the water level in that concrete chamber.. None of such videos dare to show the water levels in that well and how efficient is their invention.
Watch when you inserted the tube into the well, you will notice that there is a person holding the tube, minute 3:48
Wow! You make the universe go backwards!!!
Amazing
On 5:05 you can see some liquid vacuum in the small bottle. It helps to rise water from the well. The main problem is to get cheap liquid vacuum cause it costs a lot in stores. Hope the author will make videoinstruction how to build low cost liquid vacuum generator.
if you look even closer and pay attention you can see that as she is filling the big container that the water is going into the small jug
At CERN they produce liquid vacuum using dark energy. But that is difficult to make because dark energy can only be extracted from neutrinos. Maybe it is possible to make liquid vacuum from fluid dynamics?
The whole video is a hoax. No siphon can lift any water.
What pipe diameters do you use? What is the depth of the well where the water is taken from?
Basic questions you rised bro
Pipe diameter is 1/2 inch
Any diameter will do, BU te water level in the well must be higher than the output from the system.
O diâmetro do cano é relação ao diâmetro da bomba 😂😂😂😂😂
In general, the diameter of the pipe will depend on the size of container, the strength of container, and how fast\much water you want to pump.
Then the size of input and output can be important too. Few basic laws of physics
🔸 If the outlet is larger than input then will soon run out of water.
🔸 If output is larger than the strength of the container, then it will crush the container. Yes, it can crush steel barrel
They're several free energy systems, and some works best with some specific setting. This system, I think you can use same diameter for both IN and OUT. For RAM PUMP then most people suggest the INPUT is 2X larger than output.
How BIG? I've seen steel pipe nearly 1 meter (RAM PUMP), and some RAM PUMP delivers water 5-10 km.
Even if the faucet had a check valve, wouldn't the air pressure sucking it up and the weight of the water balance out somewhere and stop it? A mechanism that converts potential energy into other potential energy. There's no way you can do it infinitely.
SENSACIONAL!! São justamente esses tipos de invenções que o sistema não quer que as pessoas conheçam.
Uma pena que uma farsa, contraria uma das ''três leis da física".
na hora q eles ligam a bomba sapo, dá pra ver o solavanco q o cano dá
Isso não é verdade, impossível isso acontecer, só seria possível, se fosse no mesmo nível!
😂😂😂
Tai
Exelente esplicasion
❤❤ the hammer runs in the family 😊
о сколько нам открытий чудных готовит отупенья друг))
This is totally amazing!!! I never knew about this. Thanks so muy for sharing these awesome ideas. Jehovah God bless you.
This is a hoax and a bluff. No siphon can lift water from a well. Impossible.
A totally amazing hoax. Can not work, impossible.
its a lie bro. its agains the physical law, energy conservation. its impossible
Só vendo ao natural!
Excelente video,
What mentality is happening in these guys to show fake and unrealistic videos
Good Idea superb I needed this idea. Thanks bro 👍
Sei não em falta verdades neste tutorial.
Meanwhile the camera makes sure it never looks into the actual well. Which isn’t constructed like a deep well. That’s constructed like a shallow well.
Genial 👍🏻. 🙋🏻♂️ Cusco 🇵🇪.
Muchas Gracias por compartir tu conocimiento.
....If this would work it would be for sale everywhere...
What mentality is happening in these guys to show fake and unrealistic videos
1. give it an electric generator,
2. run the water in the yellow bucket into the well again,
3. make lots of perpetual machines like that,
4. then you can start selling electricity and become a billionaire.
5. finally, wake up from your dream and work to make real money in real life
Educational video. Great Thanks.
I am waiting for the camera moving to shoot inside the well ..
this will not happen, we know the reason...
ใช้แบตเตอรี่กี่ก้อนครับ
😂
This one need BRAIN and won't work with brainless fool.
Remember to turn off the pump in the well when you're done.
If this was possible the whole world could have infinite electricity through hydropower which is impossible. Real world works differently than fantasy unfortunately
How to suck up water without the plastic tank collapsing .Are you decieved?
Very smart design , I think this design would work without the upside down bottle because it works on the water replacement from inside the big bottle has all it takes to get it moving you can try it on , anyway you did a great job and very creative, thank you.
This is a siphon. No siphon can lift water up to a higher level. This video is a hoax!
Sorry, it does not wotk at all. No siphon can lift water up from a well.
The small bottle comes into use when you turn off the water tap it allows the water in the system for somewhere to go while the system relaxes so when you next turn on the tap you have water available to draw off while the blue tank. The blue tank incidentally will suffer from negative pressure and could collapse in on itself should it become too warm in the sunshine.
@@AnthonyBarry-q1i The small bottle is only a little expansion of the volume in the blue tank. No need all. With no foot valve, the blue tank vill be fine in rain and sun, no problem.
But, this system can only work if the water level in the well is higher than the outlet, as with any siphon.
What mentality is happening in these guys to show fake and unrealistic videos
เยี่ยมมากๆเลยครับ(ง่ายแล้วที่เห็นหลักการ)
น่าจะปลอมนะ เพราะน้ำหนักที่ดึงจากเส้นในบ่อจะมากกว่าที่ออกมาจากก๊อก ถ้าใส่น้ำจนเต็มจริงๆ สิ่งที่เกิดแนวโน้มจะเป็นการดูดกลับลงบ่อซะมากกว่า เว้นแต่กรณีเดียวที่พอเป็นไปได้คือtrompe pump ซึ่งจะเอาอากาศมาmixกับน้ำแล้วส่งเป็นงวดๆจากในบ่อ(ซึ่งจากกลไกที่ดูนอกจากfoot valveแล้วก็ไม่เห็นอย่างอื่นที่จะเอาอากาศมาผสมได้) แต่ต่อให้เป็นtrompe pumpน้ำที่สูบขึ้นมาได้จะน้อยกว่าน้ำที่ไหลผ่านก๊อก(เพราะมีอากาศไปผสม)จนค่อยๆหมดไปเอง ไม่มีทางสูบอย่างต่อเนื่องได้แน่นอน
Whats bottle for?
To make the system more 'sientific', no need. Btw this is a siphon. No siphon csn lift water out of a well.
The SEALED bottle to generate SUCTION to suck water up from the well. The bottle needs to be 100% SEALED no leak. The output needs a good flow to generate a VACUUM.
I've tested the system without the additional clear plastic bottle (at output) and I guess this helps generating stronger vacuum. If you try without the additional bottle, then you might need a longer output hose to generate enough vacuum.
멋지네요
Hoak
yes
Hello friends. They all say what space people look like, that is, they are smarter than us.....
A lot of people don’t understand how physics works here
Tuyệt vời ❤ bạn giếng sâu mấy mét
Mi consulta es la siguiente,hasta cuántos metros de profundidad funciona?
Não funciona.
cuanto más profundo es, más grande debe ser el recipiente azul; es el volumen de agua de este recipiente el que atrae aire hacia la tubería del pozo y hace que el agua suba. sifonando
I've seen a little larger and stronger design, and it said that the well was about 15 meter deep (I think I've seen 20+ meter).
если напрямую к основной емкости подключить две двухлитровки от кваса очаково напор будет сильнее на 32 процента!
I made this with a very strong polyethylene barrel and it totally collapsed even when I put inside a wooden frame. It never pulled any water up from the well and so was rather disappointed that this was yet another fake video made only to get views.
This is a siphon. No siphon can lift water. Not even from a 1 inch deep well.
Betul sekali 😮
😢😅. So it's a lie lie
You are Right Sir.
@@kjellg6532you are Right
Keren 👍👍👍
Kenapa gak berani shoot lubang sumur...
Takut nya orang yg megangin pompa nya kejebur
My village use this siphon pump already since 30 years.
Hello,
Please tell me what engine has placed in the end of the tube that load the water.
Can you help to realize this pump step by step?
Minciuni ptr likeuri!
Good idea thank
Crap, if the vacuum pressure in the tank can suck up the water in the well, this pressure will immediately collapse the plastic tank.
If the plastic bottle does not collapse, the vacuum pressure will suck the water out from the faucet. not without sucking down the well. because the pressure column in the well is higher than at the water outlet.
The video is meant to entertain and trick viewers.
5:56 склейка видео - и включение насоса. Вот чудо 🤭
2 comments :
1. To fill up the barrel, it is more easy to take out the barrell cover...
2. To suck from deep, need that the discharge pipe to be bigger than suction.
But must keep an eye to the level : the discharging it is faster than filling.
It WORK. It is pure pfizics
Two comments:
1: How do you refill the system, tubes are glued and fixed.
2: No need for bigger discharge, the tubes can be any size. Even the input may be 20 cm and the output 2,5 cm. BUT, for this to work, the water level in the well must be higher than the output from the system. Ii other words, you have to dig a deep hole for the discharge!
What mentality is happening in these guys to show fake and unrealistic videos
NAZARÉ - BAHIA - BRASIL
OK
4:58 видно что когда наливает из трубы, погруженной в воду идут пузырьки и вода наливается выше, значит емкость не герметична. работать не будет.
ну ведь с понтом дела обратный клапан стоит
а так понятно конструкция не должна работать 😆😆😆
@@NoName-od3fv Не русские наизобретали в последнее время столько всякой херни, которая на деле не работает, а такие как ты об этом почему-то молчат к чему-бы это?
Эта система в любом случае работать не будет.
Lừa tộc thôi.
Thanks
Dos it work from 20 m well
No. As I wrote 2 weeks ago: Theatre, hoax, scam. A siphon can not lift any water up from a well.
Water is life, wealth, don't waste it
The physics is the vacuum generated as the barrel empties. The depth from which it can pull the water will be limited by the amount vacuum. Initial energy is filling up the vacuum tank. The smaller bottle has a questionable role! Faster outlet(wider pipe) would generate faster vacuum. Just thoughts. Need a field trial!
No field trial needed. This is a siphon. The source, well, must be elevated higher than the output for this to work.
@@kjellg6532 I think I stated this politely as in this instance the well water level is lower and hence your siphon should not work.
@@curiouscynic4357 We fully agree, it does not work in this setup. When I was talking about a ‚siphon‘ my understanding is that this construction could function as a siphon with a priming barrel. For this apparatus to work as a siphon the source must be higher than the outlet, as with any siphon. So is the apparatus a „siphon“? Yes, but no. Depends on how you Interpret „siphon“, i.e. mechanics or function.
Now, there exists a patent that shows a siphon that really can pump water up about 6-8 m in an intermittent cycle. It works, but is tricky to tune.
In short: given an ordinary working siphon. At the top point install a small vessel. There are 3 valves to the vessel, input, output and drain. Drain is closed and the two others are open. The siphon is running.
Close input and output. Open drain and let go of the water in the vessel. Close drain, open the two others and in some time the siphon will refill the vessel 100% with water. Repeat.
The exit from the vessel must be from the tom do get all air out. The exit tube must be long enough to get the siphon restarted and refilled with water.
It works, but is very sophisticated using water to manipulate the timing and movement of the valves.
great idea✔️
Merci pour le partage de cette video.😀
Điều này khó có thể xẩy ra một cách tự nhiên
It cannot work. Physics is physics.
What mentality is happening in these guys to show fake videos ?
Fake?
Obviously@@kaynaphonesch1059
Hahaha.. Volume air di dalam galon bisa naik setelah air masuk.. Pasti didorong pompa air di dalam sumur.. Hahaha
Fake 😂 see the well inside in camara