Water Experiments Capillarity, Natural Water Fountains Principle

Take two one-gallon glasses cans one without the bottom.

The bottom can D is filled with water.
A strip of thin muslin (a piece of cloth)  over the mouth of the other can B pressed firmly over the mouth C of the can of water which is fitted tightly thus connecting them, the upper bottomless can being inverted.

Then a narrow slit is made in the center of the muslin with a pen knife and through it thrust a glass of tube 1/16 inch.

Next, a string is wrapped around the open top of the upper can cross over top and tie the glass tube to the center of the cross string simply to hold the tube into position.

A bag of salt is dissolved in water and the solution is poured into the upper can filling it to the top.

Then the glass tube is inserted into the two cans so that the tip of the curve is about
2 1/2  inches above the surface of the salty solution.
A flow of liquid exhibits itself.

In this experiment, the water rises above its source without the sand.

Saltwater has of greater specific gravity than pure water. The pressure of the heavier fluid forces the lighter up in the tube.

This action continues until in the gradual diffusion of the salty solution in the pure water the salt is disseminated equally through the vessels, and the specific gravity of the mixed liquid becomes the same throughout when the flow ceases.

However, on the earth where supplies are inexhaustible, the fountain flows unceasingly.

 

Source

Valiant Thor's The Hellier Below Venus Aphrodite and Synchronicity în the Legendary Caverna of Etidorhpa Ingrid Cold with Terry Wriste.

 

Natural Water Fountain Principle

Can a fountain rise above its source?

A cylindrical jar about 18 inches in height and 2 inches in diameter called a hydrometer jar, a long slender drawn glass tube with a diameter of 1/16 of an inch.

The capillarity attraction will draw the liquid above the surface. It is possible to force the water through and out of this tube.
Capillarity attractions will not expel a liquid from a tube if its mouth is above the surface of the supply.

Deep the tip of the capillary tube inside the larger tube that was filled with water.

The water rose inside the inside tube about 1 inch above the surface of the water.

Capilarity can do no more.

But if the exit of the tube is lower than the surface of the liquid we can create water circulation.

In the large glass, we have 6 inches of water. At the end of the small tube, we place a thin muslin (cloth) tied and drop that end into the large cylinder. The muslin prevents the tube from being filled with sand.

Then pour sand into the cylinder until it reaches the surface of the water.

Then dissolve salt into a portion of the water with sand making it a thick mush and pour into the cilynder filling up close to the top.

The sand settling left a layer of salty water or brine above it.

The upper end of the glass tube was curved and water began to flow through the tube droppimg quite rapidly into the cylinder.

The lower end of the curve of the glass tube was fully half an inch above the surface of the liquid in the cylinder.

The is a steady flow of water, water rising above its surface and flowing into the reservoir from which it was. Eing continually derived.
It will continue until the solution of salt flows from the tube.

The waters beneath the earth are under pressure induced by such natural causes as is presented in this experiment the difference is that the supply of both fresh and saltwater is inexhaustible and by natural combination similar to this experiment the streams within the earth may rise continuously eternally from a reservoir higher than the head.

In addition, there are pressure of gases and solutions of many salts other than chlorine of soda, that tend to favour the phenomena on

Source:

Valiant Thor's The Hellier Below Venus Aphrodite and Synchronicity în the Legendary Caverna of Etidorhpa Ingrid Cold with Terry Wriste.

Capillarity

Shushtar Hydraulic Water System

  

Perhaps one of the greatest technological feats of the early Persian civilization was the Shushtar Historical Hydraulic System. This highly complex system has been referred to as "a masterpiece of creative genius" and declared a world heritage site by UNESCO (United Nations Educational, Scientific, and Cultural Organization). This historical site is probably best described as a hydraulic super factory! Its infrastructure is made up of watermills, dams, tunnels, canals, pools, and waterfalls and at one time powered up to 40 watermills in the surrounding area. What makes Shushtar so advanced and unique was that several cultures have helped advance it through out the ages from the early Persians, Romans, all the way back to Darius The Great, an Achaemenian king of Iran. This remains to be seen as one of the greatest exchanges of hydraulic engineering and its application throughout antiquity.

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link: https://orangeseal.us/blogs/general-blog/ancient-hydraulics