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Defining algebraic elements

Published online by Cambridge University Press:  12 March 2014

Paul D. Bacsich
Paul D. Bacsich*
Affiliation:
University of Oxford, Mathematical Institute, Oxford, England
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Extract

This paper is a survey and a synthesis of the various approaches to defining algebraic elements. Most of it is devoted to proving the following result.

Let T be a universal theory with the Amalgamation Property. Then for T the notions of algebraic element introduced by Robinson, Jónsson, and Morley are identical. Furthermore, they extend in a natural way the notion of algebraic element introduced by Park, and used by Lachlan and Baldwin and by Kueker.

In the course of proving this we shall construct the algebraic closure as a suitable injective hull and prove a unique factorisation theorem for algebraic predicates.

We shall also show (in §3) that if T is closed under products then algebraic elements all have degree 1. Thus in algebra, algebraic elements reduce to epimorphisms.

To demonstrate the remarkable stability of the notion we shall show (at the end of §5) that defining algebraic elements by infinitary formulas yields no new ones.

Let L be a language. The cardinality of the set of formulas of L is denoted by ∣L∣. An L-theory is a deductively closed set of L-sentences. We let denote the category of models of T and (L-structure) homomorphisms between them. If A is a substructure of B we write AB. We call u: AB an injection if u is an isomorphism of A with a substructure of B, and let denote the subcategory of consisting of all injections.

Type
Research Article
Information
The Journal of Symbolic Logic , Volume 38 , Issue 1 , March 1973 , pp. 93 - 101
Copyright
Copyright © Association for Symbolic Logic 1973

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References

REFERENCES

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