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{{short description|Formalization of the natural numbers}}
'''Primitive recursive arithmetic''' ('''PRA''') is a [[Quantification (logic)|quantifier]]-free formalization of the [[natural numbers]]. It was first proposed by Norwegian mathematician {{harvtxt|Skolem|1923}},<ref>reprinted in translation in {{harvtxt|van Heijenoort|1967}}</ref> as a formalization of his [[finitist]]ic conception of the [[foundations of mathematics|foundations of arithmetic]], and it is widely agreed that all reasoning of PRA is finitistic. Many also believe that all of finitism is captured by PRA,{{sfn|Tait|1981}} but others believe finitism can be extended to forms of recursion beyond primitive recursion, up to [[epsilon zero (mathematics)|ε<sub>0</sub>]],{{sfn|Kreisel|1960}} which is the [[proof-theoretic ordinal]] of [[Peano arithmetic]].<ref>{{harvtxt|Feferman|1998|p=4 (of personal website version)}}; however, Feferman calls this extension "no longer clearly finitary".</ref> PRA's proof theoretic ordinal is ω<sup>ω</sup>, where ω is the smallest [[transfinite number|transfinite ordinal]]. PRA is sometimes called ''Skolem arithmetic'', although that has another meaning, see [[Skolem arithmetic]].
The language of PRA can express arithmetic propositions involving [[natural number]]s and any [[primitive recursive function]], including the operations of [[addition]], [[multiplication]], and [[exponentiation]]. PRA cannot explicitly quantify over the ___domain of natural numbers. PRA is often taken as the basic [[metamathematic]]al [[formal system]] for [[proof theory]], in particular for [[consistency proof]]s such as [[Gentzen's consistency proof]] of [[first-order arithmetic]].
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|doi= 10.7146/math.scand.a-10412
|doi-access= free
*{{cite book▼
|last= van Heijenoort▼
|first= Jean▼
|author-link= Jean van Heijenoort▼
|year= 1967▼
|mr= 0209111▼
}}
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|contribution= Ordinal logics and the characterization of informal concepts of proof
|contribution-url = http://www.mathunion.org/ICM/ICM1958/Main/icm1958.0289.0299.ocr.pdf
|archive-url=https://web.archive.org/web/20170510093701/http://www.mathunion.org/ICM/ICM1958/Main/icm1958.0289.0299.ocr.pdf
|archive-date=10 May 2017
|___location= New York
|mr= 0124194
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|pages= 1–38
}}
**{{cite book
|chapter=The foundations of elementary arithmetic established by means of the recursive mode of thought, without the use of apparent variables ranging over infinite domains
|title=From Frege to Gödel
|orig-year=1923
|editor-first=Jean
|pages=302–333
|last=Skolem
|publisher=Harvard University Press|ref=CITEREFvan_Heijenoort1967}} {{IAp|https://archive.org/details/fromfregetogodel0025unse/page/302/mode/2up}}
*{{cite journal
|last= Tait
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|chapter-url=https://home.uchicago.edu/~wwtx/PRA2.pdf
|doi=10.1007/978-94-007-4435-6_8
|archive-url= https://web.archive.org/web/20240524221357/https://home.uchicago.edu/~wwtx/PRA2.pdf
|archive-date= 24 May 2024
}}
▲*{{cite book
;Additional reading▼
▲*{{cite journal
|last= Feferman
|first= Solomon
|author-link= Solomon Feferman
|year=
|
|chapter-url=https://math.stanford.edu/~feferman/papers/whatrests.pdf
|doi=10.1093/oso/9780195080308.003.0010
|title=In The Light Of Logic
}}
*{{cite journal
|last= Rose
| |||