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Sentences implying their own provability

Published online by Cambridge University Press:  12 March 2014

David Guaspari
David Guaspari*
Affiliation:
St. John's College, Annapolis, Maryland 21404
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Extract

We begin with a simple observation and a simple question. If we fix Th(x), some reasonable formulation of “x is the Gödel number of a theorem of Peano Arithmetic”, then for any sentence σ, Peano Arithmetic proves σ → Th(⌈σ⌉). (Here ⌈σ⌉ is the canonical term denoting the Gödel number of σ.) This observation is crucial to the proof of the Second Incompleteness Theorem. Call ψ a self-prover (with respect to Th(x)) if ψ → Th(⌈ψ⌉) is a theorem of Peano Arithmetic (from now on, PA). Our simple question is this: Does the observation have a converse—must every self-prover be provably equivalent to a sentence? Whatever φ happens to be, the formula φ ∧ Th(⌈φ⌉) is a self-prover. This makes it seem clear that there must exist self-provers which are not provably : We need only use a suitably complicated φ.

Deciding what sort of complication is “suitable” and finding such a φ is surprisingly annoying. Here is a quick example: One might guess that any φ which is unprovable and would work. In that case we could take φ to be CON—that is, ¬Th(⌈0 = 1⌉); but CON ∧ Th(⌈CON⌉) is refutable in PA, so is provably equivalent to the quantifier-free formula 0 = 1.

Type
Research Article
Information
The Journal of Symbolic Logic , Volume 48 , Issue 3 , September 1983 , pp. 777 - 789
Copyright
Copyright © Association for Symbolic Logic 1983

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References

BIBLIOGRAPHY

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