Section 13. Basis for a Topology

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13. Basis for a Topology 1 Section 13. Basis for a Topology Note. In this section, we consider a basis for a topology on a set which is, in a sense, analogous to the basis for a vector space. Whereas a basis for a vector space is a set of vectors which (efficiently; i.e., linearly independently) generates the whole space through the process of raking linear combinations, a basis for a topology is a collection of open sets which generates all open sets (i.e., elements of the topology) through the process of taking unions (see Lemma 13.1). Definition. Let X be a set. A basis for a topology on X is a collection B of subsets of X (called basis elements) such that (1) For each x X, there is at least one basis element B B such that x B. (2) If x B a B 2 where B 1,B 2 B then there is B 3 B such that x B 3 and B 3 B 2 B 2. The topology T generated by B is defined as: A subset U X is in T if for each x U there is B B such that x B and B U. (Therefore each basis element is in T.) Note. We need to prove that the alleged topology generated by basis B is really in fact a topology.

13. Basis for a Topology 2 Theorem 13.A. Let B be a basis for a topology on X. Define T = {U X x U implies x B U for some B B}, the topology generated be B. Then T is in fact a topology on X. Example. A set of real numbers (under the standard topology) is open if and only if it is a countable disjoint union of open intervals. This is one of the most important results from Analysis 1 (MATH 4217/5217)! A largely self-contained proof of this (only requiring a knowledge of lub and glb of a set of real numbers) can be found in my supplemental notes to Analysis 1 at: http://faculty.etsu.edu/gardnerr/4217/notes/supplement-open-sets.pdf So a basis for the standard topology on R is given by the set of all open intervals of real numbers: B = {(a,b) a,b R,a < b} {(,b) b R} {(a, ) a R}. In fact, a countable basis for the standard topology is given by B = {(a,b) a,b Q,a < b}. This is based in part on the fact that a countable union of countable sets is countable (see Munkres Theorem 7.5). See Exercise 13.8(a). Example 1. A basis for the standard topology on R 2 is given by the set of all circular regions in R 2 : B = {B((x 0,y 0 ),r) r > 0 and B((x 0,y 0 ),r) = {(x,y) R 2 (x x 0 ) 2 +(y y 0 ) 2 < r 2 }}. In fact, a countable basis is similarly given by considering all B((p 0,q 0 ),r) where p 0,q 0 Q and r Q where r > 0.

13. Basis for a Topology 3 Example 2. A basis for the standard topology on R 2 is also given by the set of all open rectangular regions in R 2 (see Figure 13.2 on page 78). Example 3. If X is any set, B = {{x} x X} is a basis for the discrete topology on X. Note. The following result makes it more clear as to how a basis can be used to build all open sets in a topology. Lemma 13.1. Let X be a set and let B be a basis for a topology T on X. Then T equals the collection of all unions of elements of B. Note. The previous result allows us to create ( generate ) a topology from a basis. The following result allows us to test a collection of open sets to see if it is a basis for a given topology. Lemma 13.2. Let (X, T ) be a topological space. Suppose that C is a collection of open sets of X such that for each open subset U X and each x U, there is an element C C such that x C U. Then C is a basis for the topology T on X. Note. The following lemma allows us to potentially compare the fineness/coarseness to two topologies on set X based on properties of respective bases.

13. Basis for a Topology 4 Lemma 13.3. Let B and B be bases for topologies T and T, respectively, on X. Then the following are equivalent: (1) T is finer than T. (2) For each x X and each basis element B B containing x, there is a basis element B B such that x B B. Note. We now define three topologies on R, one of which (the standard topology ) should already be familiar to you. Definition. Let B be the set of all open bounded intervals in the real line: B = {(a,b) a,b R,a < b}. The topology generated by B is the standard topology on R. Definition. Let B be the set of all half open bounded intervals as follows: B = {[a,b) a,b R,a < b}. The topology generated by B is the lower limit topology on R, denoted R l. Definition. Let K = {1/n n N}. Let B = {(a,b) a,b R,a < b} {(a,b) \ K a,b R,a < b}. The topology generated by B is the K-topology on R, denoted R K.

13. Basis for a Topology 5 Note. The relationship between these three topologies on R is as given in the following. Lemma 13.4. The topologies of R l and R K are each strictly finer than the standard topology on R, but are not comparable with one another. Definition. A subbasis S for a topology on set X is a collection of subsets of X whose union equals X. The topology generated by the subbasis S is defined to be the collection T of all unions of finite intersections of elements of S. Note. Of course we need to confirm that the topology generated by a subbasis is in fact a topology. Theorem 13.B. Let S be a subbasis for a topology on X. Define T to be all unions of finite intersections of elements of S. Then T is a topology on X. Revised: 5/28/2016

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