Baire's Theorem and Applications

From Department of Mathematics at UTSA
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The Baire Category Theorem

Lemma 1: Let be a topological space and let . If is a nowhere dense set then for every there exists a such that .

Theorem 1 (The Baire Category Theorem): Every complete metric space is of the second category.

  • Proof: Let be a complete metric space. Then every Cauchy sequence of elements from converges in . Suppose that is of the first category. Then there exists a countable collection of nowhere dense sets such that:
  • Let . For each nowhere dense set , there exists a set such that .
  • Let be a ball contained in such that . Let be a ball contained in whose radius is and such that . Repeat this process. For each let be a ball contained in whose radius is and such that and such that .
  • The sequence is Cauchy since as gets large, the elements are very close. Since is a complete metric space, we must have that this Cauchy sequence therefore converges to some , i.e., .
  • Now notice that for all because if not, then there exists an such that for all . Hence is open and so there exists an open ball such that but then because for all .
  • Since for all then since we must have that then

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