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== History ==
There is circumstantial evidence of protohistoric knowledge of algebraic identities involving binary quadratic forms.<ref>{{harvnb|Weil|2001|loc=Ch.I §§VI, VIII}}</ref> The first problem concerning binary quadratic forms asks for the existence or construction of representations of integers by particular binary quadratic forms. The prime examples are the solution of [[Pell's equation]] and the representation of integers as
The general theory of quadratic forms was initiated by [[Lagrange]] in 1775 in his ''[[List of important publications in mathematics#Recherches d'Arithmétique|Recherches d'Arithmétique]]''. Lagrange was the first to realize that "a coherent general theory required the simulatenous consideration of all forms."<ref>{{harvnb|Weil|2001|loc=p.318}}</ref> He was the first to recognize the importance of the discriminant and to define the essential notions of equivalence and reduction, which, according to Weil, have "dominated the whole subject of quadratic forms ever since".<ref>{{harvnb|Weil|2001|loc=p.317}}</ref> Lagrange showed that there are finitely many equivalence classes of given discriminant, thereby defining for the first time an arithmetic [[Ideal class group|class number]]. His introduction of reduction allowed the quick enumeration of the classes of given discriminant and foreshadowed the eventual development of [[infrastructure (number theory)|infrastructure]]. In 1798, [[Adrien-Marie Legendre|Legendre]] published ''Essai sur la théorie des nombres'', which summarized the work of Euler and Lagrange and added some of his own contributions, including the first glimpse of a composition operation on forms.
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