On the number of universal algebraic geometries
Abstract
The algebraic geometry of a universal algebra A is defined as the collection of solution sets of term equations. Two algebras A1 and A2 are called algebraically equivalent if they have the same algebraic geometry. We prove that on a finite set A with A >3 there are countably many algebraically inequivalent Mal'cev algebras and that on a finite set A with A >2 there are continuously many algebraically inequivalent algebras.
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