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Line 27: A best approximation for the second definition is also a best approximation for the first one, but the converse is not true in general.<ref name=Khinchin24>{{harvnb\|Khinchin\|1997\|p=24}}</ref> The theory of [[Simple continued fraction\|continued fraction]]s allows us to compute the best approximations of a real number: for the second definition, they are the [[Simple continued fraction#~~convergents~~Convergents\|convergents]] of its expression as a regular continued fraction.<ref name=Lang9/><ref name=Khinchin24/><ref>{{harvnb\|Cassels\|1957\|pp=5–8}}</ref> For the first definition, one has to consider also the [[Simple continued fraction#Semiconvergents\|semiconvergents]].<ref name="Khinchin 1997 p.21"/> For example, the constant ''e'' = 2.718281828459045235... has the (regular) continued fraction representation

Diophantine approximation: Difference between revisions