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A note on a theorem of Vaught

Published online by Cambridge University Press:  12 March 2014

Joseph G. Rosenstein
Joseph G. Rosenstein*
Affiliation:
Rutgers University, New Brunswick, New Jersey 08903
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Extract

In [2] Vaught showed that if T is a complete theory formalized in the first-order predicate calculus, then it is not possible for T to have exactly (up to isomorphism) two countable models. In this note we extend his methods to obtain a theorem which implies the above.

First some definitions. We define Fn(T) to be the set of well-formed formulas (wffs) in the language of T whose free variables are among x1 x2, …, xn. An n-type of T is a maximal consistent set of wffs of Fn(T); equivalently, a subset P of Fn(T) is an n-type of T if there is a model M of T and elements a1, a2, …, an of M such that Mϕ(a1, a2, …, an) for every ϕP. In the latter case we say that 〈a1, a2, …, an〉 ony realizes P in M. Every set of wffs of Fn(T) which is consistent with T can be extended to an n-type of T.

Type
Research Article
Information
The Journal of Symbolic Logic , Volume 36 , Issue 3 , September 1971 , pp. 439 - 440
Copyright
Copyright © Association for Symbolic Logic 1972

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References

[1]Ryll-Nardzewski, C., On the categoricity in power < ℵ0, Bulletin de l'Académie Polonaise des Sciences. Série des Sciences Mathématiques, Astronomiques et Physiques, vol. 7 (1959), pp. 545548.Google Scholar
[2]Vaught, R. L., Denumerable models of complete theories, Infinitistic methods, Proceedings of the Symposium on Foundations of Mathematics, Warsaw, 1959 (1961), pp. 303321.Google Scholar