Final topology

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In general topology and related areas of mathematics, the final topology (inductive topology or strong topology) on a set X, with respect to a family of functions into X, is the finest topology on X which makes those functions continuous.

Contents

[edit] Definition

Given a set X and a family of topological spaces Yi with functions

f_i: Y_i \to X

the final topology τ on X is the finest topology such that each

f_i: Y_i \to (X,\tau)

is continuous.

Explicitly, the final topology may be described as follows: a subset U of X is open if and only if f_i^{-1}(U) is open in Yi for each iI.

[edit] Examples

[edit] Properties

A subset of X is closed if and only if its preimage under fi is closed in Yi for each iI.

The final topology on X can be characterized by the following universal property: a function g from X to some space Z is continuous if and only if g \circ f_i is continuous for each iI.

Characteristic property of the final topology

By the universal property of the disjoint union topology we know that given any family of continuous maps fi : YiX there is a unique continuous map

f\colon \coprod_i Y_i \to X

If the family of maps fi covers X (i.e. each x in X lies in the image of some fi) then the map f will be a quotient map if and only if X has the final topology determined by the maps fi.

[edit] Categorical description

In the language of category theory, the final topology construction can be described as follows. Let Y be a functor from a discrete category J to the category of topological spaces Top which selects the spaces Yi for i in J. Let Δ be the diagonal functor from Top to the functor category TopJ (this functor sends each space X to the constant functor to X). The comma category (Y ↓ Δ) is then the category of cones from Y, i.e. objects in (Y ↓ Δ) are pairs (X, f) where fi : YiX is a family of continuous maps to X. If U is the forgetful functor from Top to Set and Δ′ is the diagonal functor from Set to SetJ then the comma category (UY ↓ Δ′) is the category of all cones from UY. The final topology construction can then be described as a functor from (UY ↓ Δ′) to (Y ↓ Δ). This functor is left adjoint to the corresponding forgetful functor.

[edit] See also

[edit] References

  • Stephen Willard, General Topology, (1970) Addison-Wesley Publishing Company, Reading Massachusetts. (Provides a short, general introduction)
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