In the

philosophy of mathematics The philosophy of mathematics is the branch of philosophy that studies the assumptions, foundations, and implications of mathematics. It aims to understand the nature and methods of mathematics, and find out the place of mathematics in peop ...

, Benacerraf's identification problem is a

philosophical argument An argument is a statement or group of statements called premises intended to determine the degree of truth or acceptability of another statement called conclusion. Arguments can be studied from three main perspectives: the logical, the dialectic ...

developed by

Paul Benacerraf Paul Joseph Salomon Benacerraf (; born 26 March 1931) is a French-born American philosopher working in the field of the philosophy of mathematics who taught at Princeton University his entire career, from 1960 until his retirement in 2007. He ...

against set-theoretic Platonism and published in 1965 in an article entitled "What Numbers Could Not Be".Paul Benacerraf (1965), “What Numbers Could Not Be”, ''Philosophical Review'' Vol. 74, pp. 47–73. Historically, the work became a significant catalyst in motivating the development of mathematical structuralism. The identification problem argues that there exists a fundamental problem in reducing natural numbers to pure sets. Since there exists an

infinite Infinite may refer to: Mathematics * Infinite set, a set that is not a finite set *Infinity, an abstract concept describing something without any limit Music *Infinite (group), a South Korean boy band *''Infinite'' (EP), debut EP of American m ...

number of ways of identifying the natural numbers with pure sets, no particular set-theoretic method can be determined as the "true" reduction. Benacerraf infers that any attempt to make such a choice of reduction immediately results in generating a meta-level, set-theoretic falsehood, namely in relation to other elementarily-equivalent set-theories not identical to the one chosen. The identification problem argues that this creates a fundamental problem for Platonism, which maintains that mathematical objects have a real, abstract existence. Benacerraf's dilemma to Platonic set-theory is arguing that the Platonic attempt to identify the "true" reduction of natural numbers to pure sets, as revealing the intrinsic properties of these abstract mathematical objects, is impossible. As a result, the identification problem ultimately argues that the relation of set theory to natural numbers cannot have an

ontologically In metaphysics, ontology is the philosophical study of being, as well as related concepts such as existence, becoming, and reality. Ontology addresses questions like how entities are grouped into categories and which of these entities exis ...

Platonic nature.

Historical motivations

The historical motivation for the development of Benacerraf's identification problem derives from a fundamental problem of ontology. Since

Medieval In the history of Europe, the Middle Ages or medieval period lasted approximately from the late 5th to the late 15th centuries, similar to the post-classical period of global history. It began with the fall of the Western Roman Empire ...

times, philosophers have argued as to whether the ontology of mathematics contains

abstract objects In metaphysics, the distinction between abstract and concrete refers to a divide between two types of entities. Many philosophers hold that this difference has fundamental metaphysical significance. Examples of concrete objects include plants, hum ...

. In the philosophy of mathematics, an abstract object is traditionally defined as an entity that: (1) exists independent of the mind; (2) exists independent of the empirical world; and (3) has eternal, unchangeable properties.Michael Loux (2006) ''Metaphysics: A Contemporary Introduction'' (Routledge Contemporary Introductions to Philosophy), London: Routledge. Traditional mathematical Platonism maintains that some set of mathematical elements– natural numbers, real numbers, functions, relations, systems–are such abstract objects. Contrarily, mathematical

nominalism In metaphysics, nominalism is the view that universals and abstract objects do not actually exist other than being merely names or labels. There are at least two main versions of nominalism. One version denies the existence of universalsthings ...

denies the existence of any such abstract objects in the ontology of mathematics. In the late 19th and early 20th century, a number of anti-Platonist programs gained in popularity. These included

intuitionism In the philosophy of mathematics, intuitionism, or neointuitionism (opposed to preintuitionism), is an approach where mathematics is considered to be purely the result of the constructive mental activity of humans rather than the discovery of f ...

formalism Formalism may refer to: * Form (disambiguation) * Formal (disambiguation) * Legal formalism, legal positivist view that the substantive justice of a law is a question for the legislature rather than the judiciary * Formalism (linguistics) * Scie ...

, and

predicativism In mathematics, logic and philosophy of mathematics, something that is impredicative is a self-referencing definition. Roughly speaking, a definition is impredicative if it invokes (mentions or quantifies over) the set being defined, or (more com ...

. By the mid-20th century, however, these anti-Platonist theories had a number of their own issues. This subsequently resulted in a resurgence of interest in Platonism. It was in this historic context that the motivations for the identification problem developed.

Description

The identification problem begins by evidencing some set of elementarily-equivalent, set-theoretic models of the natural numbers. Benacerraf considers two such set-theoretic methods: ::Set-theoretic method I (using Zermelo ordinals) ::0 = ∅ ::1 = = ::2 = = ::3 = = ::... ::Set-theoretic method II (using

von Neumann ordinals In set theory, an ordinal number, or ordinal, is a generalization of ordinal numerals (first, second, th, etc.) aimed to extend enumeration to infinite sets. A finite set can be enumerated by successively labeling each element with the least n ...

) ::0 = ∅ ::1 = = ::2 = = ::3 = = ::... As Benacerraf demonstrates, both method I and II reduce natural numbers to sets. Benacerraf formulates the dilemma as a question: which of these set-theoretic methods uniquely provides the true identity statements, which elucidates the true ontological nature of the natural numbers? Either method I or II could be used to define the natural numbers and subsequently generate true arithmetical statements to form a mathematical system. In their relation, the elements of such mathematical systems are isomorphic in their structure. However, the problem arises when these isomorphic structures are related together on the meta-level. The definitions and arithmetical statements from system I are not identical to the definitions and arithmetical statements from system II. For example, the two systems differ in their answer to whether 0 ∈ 2, insofar as ∅ is not an element of . Thus, in terms of failing the

transitivity of identity In philosophy, identity (from , "sameness") is the relation each thing bears only to itself. The notion of identity gives rise to many philosophical problems, including the identity of indiscernibles (if ''x'' and ''y'' share all their propertie ...

, the search for true identity statements similarly fails. By attempting to reduce the natural numbers to sets, this renders a set-theoretic falsehood between the isomorphic structures of different mathematical systems. This is the essence of the identification problem. According to Benacerraf, the philosophical ramifications of this identification problem result in Platonic approaches failing the ontological test. The argument is used to demonstrate the impossibility for Platonism to reduce numbers to sets and reveal the existence of abstract objects.

References

Bibliography

*Benacerraf, Paul (1973) "Mathematical Truth", in Benacerraf & Putnam Philosophy of Mathematics: Selected Readings, Cambridge: Cambridge University Press, 2nd edition. 1983, pp. 403–420. *Hale, Bob (1987) ''Abstract Objects''. Oxford: Basil Blackwell. {{ISBN, 0631145931 Philosophical arguments Philosophical problems Philosophy of mathematics Set theory Structuralism (philosophy of mathematics)

Historical motivations

Description

See also

References

Bibliography