Separating set
In mathematics, a set of functions with domain is called a separating set for and is said to separate the points of (or just to separate points) if for any two distinct elements and of there exists a function such that [1]
Separating sets can be used to formulate a version of the Stone–Weierstrass theorem for real-valued functions on a compact Hausdorff space with the topology of uniform convergence. It states that any subalgebra of this space of functions is dense if and only if it separates points. This is the version of the theorem originally proved by Marshall H. Stone.[1]
Examples
- The singleton set consisting of the identity function on separates the points of
- If is a T1 normal topological space, then Urysohn's lemma states that the set of continuous functions on with real (or complex) values separates points on
- If is a locally convex Hausdorff topological vector space over or then the Hahn–Banach separation theorem implies that continuous linear functionals on separate points.
See also
References
- Carothers, N. L. (2000), Real Analysis, Cambridge University Press, pp. 201–204, ISBN 9781139643160.
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