NationMaster - Encyclopedia: Opposite category

In category theory, an abstract branch of mathematics, the dual of a category C is the category formed by reversing all the morphisms of C. That is, we take C^op to be the category with objects that are those of C, but with the morphisms from X to Y in C^op being the morphisms from Y to X in C. Hence, the dual of a dual of a category is itself. The dual category is also called the opposite category.

Examples come from reversing the direction of inequalities in a partial order. So if X is a set and ≤ a partial order relation , we can define a new ≤_new by the definition

x ≤_new y if and only if y ≤ x.

For example, there are opposite pairs child/parent, or descendant/ancestor.

This is a special case, since partial orders correspond to a certain kind of category in which Mor(A,B) can have at most one element. In applications to logic, this then looks like a very general description of negation (that is, proofs run in the opposite direction). For example, if we take the opposite of a lattice, we will find that meets and joins have their roles interchanged. This is an abstract form of De Morgan's laws.

Generalising that observation, limits and colimits are interchanged when one passes to the opposite category. This is immediately useful, when one can identify the opposite category in concrete terms. For example the category of affine schemes is equivalent to the opposite of the category of commutative rings. The Pontryagin duality restricts to an equivalence between the category of compact Hausdorff abelian topological groups and the opposite of the category of (discrete) abelian groups. The category of Stone spaces and continuous functions is equivalent to the opposite of the category of Boolean algebras and homomorphisms.

A duality between categories C and D is defined as an equivalence between C and the opposite of D. The above are all examples of dualities.

One other way in which the concept is used is to remove the distinction between covariant and contravariant functors: a contravariant functor to D is equally a functor to the opposite of D.

See also: Duality (mathematics)

Categories: Category theory

Results from FactBites:

Dual (category theory) - Wikipedia, the free encyclopedia (521 words)
	Hence, the dual category of the dual category of a category is the original category itself.
	For example the category of affine schemes is equivalent to the opposite of the category of commutative rings.
	The category of Stone spaces and continuous functions is equivalent to the opposite of the category of Boolean algebras and homomorphisms.

PlanetMath: dual category (224 words)
	For example, a coproduct is a product on the opposite category; this can be seen by looking at the commutative diagram that completely specifies a coproduct, and noting that it is the same as the diagram specifying a product with the arrows reversed.
	A cokernel is a kernel in the opposite category.
	This is version 5 of dual category, born on 2002-02-25, modified 2004-03-29.

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