Χρήστης:Dmtrs32/πρόχειρο: Διαφορά μεταξύ των αναθεωρήσεων

Mathematically, it can be written as: <math>\frac{P}{T} = k</math>. It is a special case of the [[ideal gas law]]. [[Gay-Lussac]] is incorrectly{{citation needed|date=June 2021}} recognized for the Pressure Law which established that the pressure of an enclosed gas is directly proportional to its temperature and which he was the first to formulate (c. 1809).<ref name=ColumbiaLussac>{{citation|chapter=Joseph Louis Gay-Lussac|title=Columbia Electronic Encyclopedia|edition=6th Edition, Q2|year=2016|isbn=978-0787650155|last=Lagassé|first=Paul|publisher=Columbia University|chapter-url=https://archive.org/details/columbiaencyclop00laga}}{{page?|date=July 2019}}</ref> He is also sometimes credited<ref name=Palmer>{{citation|last=Palmer|first=WP|year=1991|title=Philately, Science Teaching and the History of Science|journal=Lab Talk|volume=35|issue=1|pages=30–31|url=http://files.eric.ed.gov/fulltext/ED511749.pdf}}</ref><ref name=Holbrow/><ref name=Spurgin>{{citation|first=CB|last=Spurgin|title=Gay-Lussac's gas-expansivity experiments and the traditional mis-teaching of 'Charles's Law'|journal=Annals of Science|volume=44|issue=5|pages=489–505|year=1987|doi=10.1080/00033798700200321}}</ref> with being the first to publish convincing evidence that shows the relationship between the pressure and temperature of a fixed mass of gas kept at a constant volume.<ref name="Holbrow">{{citation|title=What Gay-Lussac didn't tell us|last1=Holbrow|first1=CH|last2=Amato|first2=JC|journal=Am. J. Phys. |volume=79|issue=1|pages=17|year=2011 |doi=10.1119/1.3485034|bibcode=2011AmJPh..79...17H}}</ref>