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A Class of Homomorphism Theories for Groupoids

Published online by Cambridge University Press:  20 January 2009

Gerald Losey
Affiliation:
The University of Wisconsin
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In a well-behaved homomorphism theory for a class of algebraic systems certain “closed objects” relative to a given G are distinguished which act as kernels of homomorphisms. For example, if is the class of groups then the closed objects relative to a given group G are the normal subgroups of G; if is the class of semigroups with zero element then one can devise a homomorphism theory in which the closed objects relative to a given S are the ideals of S[cf. Rees (3)]; in the class of groupoids one may define the closed objects relative to a given groupoid G to be the congruence relations on G, that is, subsets π⊆G×G which are equivalence relations having the property that (x1y1, x2y2) ∈ π whenever (x1, x2), (y1, y2) ∈ π. Given such a closed object N relative to G there exists a “factor” system G/N and a (canonical) homomorphism η: GG/N characterised by the property: If σ GH is a homomorphism with kernel N then there is a unique homomorphism : G/NH such that . η = σ and the kernel of is trivial in the sense that the kernel of is the unique smallest closed object relative to G/N.

Type
Research Article
Copyright
Copyright © Edinburgh Mathematical Society 1964

References

REFERENCES

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