A Bunsen burner is not made of pyrex, it's metal. Usually a beaker or flask made out of pyrex glass is heated by the flame from the Bunsen burner.
Robert Bunsen invented the Bunsen Burner in 1867.
Robert Bunsen collaborated with his laboratory assistant, Peter Desaga, to develop the Bunsen burner in the 1850s. Desaga was responsible for constructing the burner based on Bunsen's design and ideas.
The first prototype of the Bunsen burner was made by Robert Wilhelm Bunsen, a German chemist, in the 1850s. He collaborated with his laboratory assistant, Peter Desaga, to develop the device for more controlled combustion in their experiments.
This no long has an answer the closest someone said is - " Robert Wilhelm Eberhead Von Bunsen re-invented the Bunsen Burner in 1855." Thank you and sorry.
The Bunsen burner was not invented by Robert Bunsen, but rather by a team led by his colleague, Peter Desaga. Bunsen improved the design and popularized its use in laboratories, which is why it is commonly referred to as the Bunsen burner.
because Robert Bunsen made it :)
Sir Robert Bunsen is the man who made the bunsen buner,he made the burner becoz he felt like it
he DISCOVERED not made the Bunsen burner he was a German chemist but when he discovered the Bunsen burner he quit
Robert Bunsen (designer) and Peter Desaga (constructor) of Bunsen burner were Germans.
In 1855 Robert Wilhelm Eberhead Von Bunsen re-invented the Bunsen burner.
No, Robert Bunsen did not invent the Bunsen burner. It was actually invented by Michael Faraday in the 19th century. The Bunsen burner is named after Bunsen as he helped popularize its use in laboratories.
Peter Desaga constructed the first Bunsen burner.
Robert Bunsen invented the Bunsen Burner in 1867.
Robert Bunsen invented the Bunsen burner if that is what you mean?
Robert Bunsen worked for the university of Heidelberg in Germany. So Germany is your answer.
He was a pioneer in Photo Chemistry and also in Organoarsenic chemistry
Borosilicate glass is commonly used over a Bunsen burner due to its high resistance to thermal shock. This type of glass can withstand high temperatures without cracking or shattering, making it ideal for laboratory settings.