Bases of Open Sets

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We will now focus our attention at a special type of subset of a topology called a base for which we define below.

Definition: Let be a topological space. A Base (sometimes Basis) for the topology is a collection of subsets from such that every is the union of some collection of sets in .

Note that by definition, is a base of - albeit a rather trivial one! The emptyset is also obtained by an empty union of sets from .

Let's look at some examples.

Example 1

Consider any nonempty set with the discrete topology . Consider the collection:

We claim that is a base of the discrete topology . Let's verify this. First, since is the discrete topology we see that every subset of is contained in . For each we therefore have that:

For the second condition, let . Then since is the discrete topology, we have that . For all , we have that can be expressed as the union of some collection of sets in . In particular, for each we have that:

Therefore is a base of the discrete topology.

Example 2

For another example, consider the set and the following topology on :

Consider the collection of open sets . We claim that is a base of . Clearly all of the sets in are contained in , so every set in is open.

For the second condition, we only need to show that the remaining open sets in that are not in can be obtained by taking unions of elements in . The can be obtained by taking the empty union of elements in . Furthermore:

Therefore every is the union of some collection of sets from , so is a base of .

Example 3

If has the usual Euclidean topology, then the collection:

(The collection of bounded open intervals) is a base for the Euclidean topology.

Example 4

If is any metric space, then the collection:

(The collection of open balls relative to the metric defined on ) is a base for the topology resulting from the metric on .

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