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==Formal definition of metric space==
==Formal definition of metric space==
A '''metric space''' is an ordered pair <math>(X,d)</math> where <math>X</math> is a set <math>X</math> and <math>d</math> is a metric on <math>X</math>.
A '''metric space''' is an ordered pair <math>(X,d)</math> where <math>X</math> is a set and <math>d</math> is a metric on <math>X</math>.


For shorthand, a metric space <math>(X,d)</math> is usually written simply as <math>X</math> once the metric <math>d</math> has been defined or is understood.
For shorthand, a metric space <math>(X,d)</math> is usually written simply as <math>X</math> once the metric <math>d</math> has been defined or is understood.

Revision as of 17:52, 2 September 2007

In mathematics, a metric space is, roughly speaking, a mathematical object which generalizes the notion of a Euclidean space (a -tuple of real numbers) equipped with the usual Euclidean distance to more general classes of sets such as a set of functions. A metric space consists of two components, a set and a metric on that set. On a metric space, the metric replaces the Euclidean distance as a notion of "distance" between any pair of elements in its associated set (for example, as a distance between two functions if the set consists of a class of functions) and induces a topology on the set called the metric topology.

Metric on a set

Let be an arbitrary set. A metric on is a function with the following properties:

  1. (non-negativity)
  2. (symmetry)
  3. (triangular inequality)
  4. if and only if

Formal definition of metric space

A metric space is an ordered pair where is a set and is a metric on .

For shorthand, a metric space is usually written simply as once the metric has been defined or is understood.

References

1. K. Yosida, Functional Analysis (6 ed.), ser. Classics in Mathematics, Berlin, Heidelberg, New York: Springer-Verlag, 1980