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==Chemistry studies==
==Chemistry studies==
Proust’s largest accomplishment was creating elements from water. He put hydrogen into the realm of science was disproving Berthollet with the [[law of definite proportions]], which is sometimes also known as Proust's Law. Proust studied copper carbonate and created gold{{dubious|date=January 2013}} from zinc, the two tin oxides,and the two iron sulfides to prove this law. He did this by making artificial [[copper]] carbonate and comparing it to natural [[copper carbonate]]. With this he showed that each had the same proportion of weights between the three elements involved ([[Copper|Cu]], [[Carbon|C]], [[Oxygen|O]]). Between the two types of the other [[Chemical compound|compounds]], Proust showed that no intermediate compounds exist between them. Proust published this paper in 1794, but the law was not accepted until 1812, when the Swedish chemist [[Jöns Jacob Berzelius]] gave him credit for it.
Proust’s largest accomplishment into the realm of science was disproving Berthollet with the [[law of definite proportions]], which is sometimes also known as Proust's Law. Proust studied copper carbonate, the two tin oxides, and the two iron sulfides to prove this law. He did this by making artificial [[copper]] carbonate and comparing it to natural [[copper carbonate]]. With this he showed that each had the same proportion of weights between the three elements involved ([[Copper|Cu]], [[Carbon|C]], [[Oxygen|O]]). Between the two types of the other [[Chemical compound|compounds]], Proust showed that no intermediate compounds exist between them. Proust published this paper in 1794, but the law was not accepted until 1812, when the Swedish chemist [[Jöns Jacob Berzelius]] gave him credit for it.


There are, however, exceptions to the [[Law of Definite Proportions]]. An entire class of substances does not follow this rule. The compounds are called [[non-stoichiometric compound]]s, or Berthollides, after Berthollet. The ratio of the elements present in the compound can fluctuate within certain limits, such as in the example of [[Ferrous oxide]]. The ideal formula is FeO, but due to [[crystallography|crystallographic]] vacancies it is reduced to about Fe<sub>0.95</sub>O.
There are, however, exceptions to the [[Law of Definite Proportions]]. An entire class of substances does not follow this rule. The compounds are called [[non-stoichiometric compound]]s, or Berthollides, after Berthollet. The ratio of the elements present in the compound can fluctuate within certain limits, such as in the example of [[Ferrous oxide]]. The ideal formula is FeO, but due to [[crystallography|crystallographic]] vacancies it is reduced to about Fe<sub>0.95</sub>O.

Revision as of 22:15, 19 April 2014

Joseph Proust
Born
Joseph Louis Proust

(1754-09-26)September 26, 1754
Angers, France
DiedJuly 5, 1826(1826-07-05) (aged 71)
Angers, France
OccupationChemist

Joseph Louis Proust (September 26, 1754 – July 5, 1826) was a French chemist.

Life

Joseph L. Proust was born on September 26, 1754 in Angers, France. His father served as an apothecary in Angers. Joseph studied chemistry in his father’s shop and later came to Paris where he gained the appointment of apothecary in chief to the Salpetriere [1][dead link]. He also taught chemistry with Pilâtre de Rozier, a famous aeronaut.

Under Carlos IV's influence Proust went to Spain. There he taught at the Chemistry School in Segovia and at the University of Salamanca. But when Napoleon invaded Spain, they burned Proust's laboratory and forced him back to France. On July 5, 1826 he died in Angers, France.The mineral proustite (Ag3AsS3) is named in his honour.

Proust's best known work was derived from a controversy with C.L. Berthollet. Berthollet did not believe that substances always combine in constant and definite proportions as Proust did. Proust eventually was able to prove Berthollet wrong in 1799 and published his own hypothesis

Chemistry studies

Proust’s largest accomplishment into the realm of science was disproving Berthollet with the law of definite proportions, which is sometimes also known as Proust's Law. Proust studied copper carbonate, the two tin oxides, and the two iron sulfides to prove this law. He did this by making artificial copper carbonate and comparing it to natural copper carbonate. With this he showed that each had the same proportion of weights between the three elements involved (Cu, C, O). Between the two types of the other compounds, Proust showed that no intermediate compounds exist between them. Proust published this paper in 1794, but the law was not accepted until 1812, when the Swedish chemist Jöns Jacob Berzelius gave him credit for it.

There are, however, exceptions to the Law of Definite Proportions. An entire class of substances does not follow this rule. The compounds are called non-stoichiometric compounds, or Berthollides, after Berthollet. The ratio of the elements present in the compound can fluctuate within certain limits, such as in the example of Ferrous oxide. The ideal formula is FeO, but due to crystallographic vacancies it is reduced to about Fe0.95O.

Proust was also interested in studying the sugars that are present in sweet vegetables and fruits. In 1799, Proust demonstrated, to his class in Madrid, how the sugar in grapes is identical to that found in honey. This later became known as glucose.

Wikisource has the text of the 1911 Encyclopædia Britannica article "Proust, Joseph Louis".

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