Tycho Brahe's hidden lab holds secrets of undiscovered element

Tycho Brahe was an alchemist who was reluctant to share his discoveries. In his laboratory, however, he worked with an element that humanity discovered only nearly 200 years after his death.

He was born in 1546 in the Swedish town of Svalöv and died in Prague, Czech Republic, in 1601. The Danish astronomer Tycho Brahe became famous as the creator of the geoheliocentric model of the Solar System, which combined elements of Copernicus's heliocentrism and Ptolemy's geocentrism. Tycho Brahe was also one of Johannes Kepler's primary teachers. A significant milestone in his research career was the creation of the Uranienborg astronomical observatory on the present-day Swedish island of Ven.

As we now learn, the alchemist might have been hiding even more secrets. According to the portal Chemistry World, research in Brahe's laboratory revealed the presence of nine chemical elements on some vessels' external and internal surfaces. The most noteworthy substance identified was tungsten, discovered only 180 years after the Dane's death.

Scholars from the University of Southern Denmark, led by Kaare Lund Rasmussen, could only thoroughly examine the found items because the Dane stored them in the laboratory's basement. In this way, despite the alchemist's laboratory being demolished in 1601, scholars managed to identify an element unknown to science at that time.

Brahe worked on the orders of Emperor Rudolph II, for whom he developed elixirs for various ailments, including plague, leprosy, and stomach pains. Intensive work, therefore, required him to experiment with many elements and animals, such as snake meat, which was used as an ingredient in some medicines.

Therefore, it did not surprise scientists researching Brahe's work that tin, lead, and mercury were identified in his laboratory. However, the discovery of something theoretically unknown during the Danish astronomer's lifetime was a more excellent surprise: tungsten.

Why did tungsten surprise scientists? This is because K.W. Scheele discovered tungsten (in the form of tungstic acid) only in 1781. The brothers J.J. and F. d'Elhuyar isolated the pure element of this metal in 1783, giving it the name it still uses today.

This means that science learned about tungsten only 180 years after the alchemist's death, although he worked with it much earlier. Researchers from the Danish university explain that Tycho Brahe most likely separated tungsten during some chemical process, unaware that he had discovered a completely new and previously unknown element. This is the most likely scenario, given that tungsten is combined with other minerals, so its separation is possible inappropriate reactions.

Today, tungsten is used as an additive in high-quality steel. Its high density is a desirable feature in the production of armor-piercing projectiles. Tungsten’s melting point is estimated at 6170-6192°F, while its boiling point is in the range of 10031-10672°F.