Distributive category
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In mathematics, a category is distributive if it has finite products and finite coproducts such that for every choice of objects , the canonical map
is an isomorphism, and for all objects , the canonical map is an isomorphism (where 0 denotes the initial object). Equivalently. if for every object the endofunctor defined by preserves coproducts up to isomorphisms .[1] It follows that and aforementioned canonical maps are equal for each choice of objects.
In particular, if the functor has a right adjoint (i.e., if the category is cartesian closed), it necessarily preserves all colimits, and thus any cartesian closed category with finite coproducts (i.e., any bicartesian closed category) is distributive.
Example
The category of sets is distributive. Let A, B, and C be sets. Then
where denotes the coproduct in Set, namely the disjoint union, and denotes a bijection. In the case where A, B, and C are finite sets, this result reflects the distributive property: the above sets each have cardinality .
The category Grp is not distributive, even though it has both products and coproducts.
An even simpler category that has both products and coproducts but is not distributive is the category of pointed sets.[2]
References
- ^ Taylor, Paul (1999). Practical Foundations of Mathematics. Cambridge University Press. p. 275.
- ^ F. W. Lawvere; Stephen Hoel Schanuel (2009). Conceptual Mathematics: A First Introduction to Categories (2nd ed.). Cambridge University Press. pp. 296–298. ISBN 978-0-521-89485-2.
Further reading
- Cockett, J. R. B. (1993). "Introduction to distributive categories". Mathematical Structures in Computer Science. 3 (3): 277. doi:10.1017/S0960129500000232.
- Carboni, Aurelio (1993). "Introduction to extensive and distributive categories". Journal of Pure and Applied Algebra. 84 (2): 145–158. doi:10.1016/0022-4049(93)90035-R.