Heron's fountain


Heron's fountain is a hydraulic machine invented by the 1st century AD inventor, mathematician, and physicist Heron of Alexandria.
Heron studied the pressure of air and steam, described the first steam engine, and built toys that would spurt water, one of them known as Heron's fountain. Various versions of Heron's fountain are used today in physics classes as a demonstration of principles of hydraulics and pneumatics.

Construction

In the following description, call the 3 containers:
And three pipes:
It is okay if A is closed and airtight, but it is not necessary. B and C, however, need to be airtight, and resistant to atmospheric pressure. Plastic bottles will do, but a glass container will do better; balloons will just not work. This is because the fountain works in the following way:
These principles explain the construction:
Heron's fountain is not a perpetual motion machine. If the nozzle of the spout is narrow, it may play for several minutes, but it eventually comes to a stop. The water coming out of the tube may go higher than the level in any container, but the net flow of water is downward. If, however, the volumes of the air supply and fountain supply containers are designed to be much larger than the volume of the basin, with the flow rate of water from the nozzle of the spout being held constant, the fountain could operate for a far greater time interval.
Its action may seem less paradoxical if considered as a siphon, but with the upper arch of the tube removed, and the air pressure between the two lower containers providing the positive pressure to lift the water over the arch. The device is also known as Heron's siphon.
The gravitational potential energy of the water which falls a long way from the basin into the lower container is transferred by pneumatic pressure tube to push the water from the upper container a short way above the basin.
The fountain can spout as high above the upper container as the water falls from the basin into the lower container. For maximum effect, place the upper container as closely beneath the basin as possible and place the lower container a long way beneath both.
As soon as the water level in the upper container has dropped so low that the water bearing tube no longer touches the water surface, the fountain stops. In order to make the fountain play again, the air supply container is emptied of water, and the fountain supply container and the basin are refilled. Lifting the water provides the energy required.

Reiterative motion and variants

As previously mentioned, the fountain will stop working when water from B has dropped to C. There are ways, however, to make it work again, such as:
There also exist fountains with two liquids of different colors and density.

Geological phenomena

It is possible that geysers operate via this mechanism, with the distinction that the spouting of the water at the surface occurs discontinuously. Furthermore, unlike Heron's fountain, which requires that the air supply container be manually emptied of water, geysers have an analogous "air supply container" that is steadily heated by geothermal energy. When the water level in the air supply container becomes too high, the geothermal heat flux causes the water to boil off and therefore naturally empty the container of water and replace it with water vapor instead of air.

In popular culture

An example of Heron's fountain, built by Larry Fleinhardt, was featured in the 8th episode of the 4th season of the television show Numb3rs.
Heron's Fountain was featured in the first episode of "How Britain Worked" hosted by Guy Martin.