Evangelist Torricelli

Azkune Mendia, Iñaki

Elhuyar Fundazioa

This Italian physicist joined Faenza on October 15, 1608. He was a professor of mathematics at the Academy of Florence. Torricelli died in Florence on 25 October 1647.
Evangelist Torricelli.

This Italian physicist joined Faenza on October 15, 1608. As a young man he studied mathematics in Rome. Reading for the first time the works of Galileo in 1.638 he burst the desire for physics and writes the book De Motu (Higiduraz).

Galileo himself also read Torricelli's book and was fascinated by the work of the faenza, until in 1641 he invited Florence to be his secretary. Torricelli passed there, as an assistant to the old blind astronomer, the last three months of Galileo's life.

When Galileo died, he worked as a professor of mathematics at the Academy of Florence and, following a suggestion from Galileo, two years later, in 1.64, invented the mercury barometer.

He did not publish his discovery because he devoted himself fully to the world of mathematics. In geometry he studied the cycloid associated with the topic of curves. The cycloid is the curve that describes a point of the wheel circumference when a wheel rotates on a plane.

Torricelli published in 1644 the book entitled Opera Geometrica, in which he published his discoveries on the movement of fluids and projectiles. His geometric theories contributed to the development of integral calculus. Also worked the so-called Torricelli theorem. Its equation calculates the flow of the liquid contained in a container from the hole made at a certain distance below its surface.

But we came to a barometer in which the discovery of Torricelli predominates. In the last days of his life, Galileo tried to demonstrate an idea of Aristotle that emptiness is not in nature, that nature rejects emptiness by itself. Galileo, though revolutionary, was conservative in many respects. However, this idea was not considered absolute, but relative. He also suggests that Torricelli study this idea.

Aristotle's idea questioned some mining facts. In the mines, absorption vacuum pumps were used to prevent flooding. Meagizon showed that the pump located more than ten meters above water level, of any size or power, could not extract water.

Torricelli wondered what could happen if the pump had to extract mercury that was 13.5 times heavier instead of water.

In 1644, Torricelli conducted an essay to demonstrate the idea of Aristotle. It filled with mercury a glass tube of 1.20 meters in length, closed one end and introduced the other end of the tube into a mercury container. Some of the mercury came to the ship, but in the space left at the top of the vertical tube it was empty. Therefore, according to Aristotle, the void in nature did not exist, but it could be created.

Delving into his essay, he observed that the height of the mercury column had changes over time and suggested that it was due to the variation in pressure that the atmosphere affected the mercury in the container. Therefore, he had invented the barometer.

The air of the atmosphere, due to its pressure, had weight, finite weight and therefore, finite height. Years later Pascal showed it and for the first time it could be considered a finite atmosphere in a large, empty universe.

XVII. In the 19th century, the German physicist Otto von Guericke invented a special barometer. A float used the arms above and below a doll and served to predict time. It was the forerunner of the device called a barometer that records the pressure.

Torricelli, however, died in Florence on 25 October 1647.

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