Real Analysis/Compact Sets

Definition of compact set If any set has a open cover and containing finite subcover than it is compact

Let (X, d) be a metric space and let A ⊆  X. We say that A is compact if for every open cover {U_λ}_λ∈Λ there is a finite collection U_λ1, …,U_λk so that ${\displaystyle A\subseteq {\bigcup }_{i=1}^k{U}_{{\lambda }_i}}$. In other words a set is compact if and only if every open cover has a finite subcover. There is also a sequential definition of compact set. A set A in the metric space X is called compact if every sequence in that set have a convergent subsequence.

Let A be a compact set in ${\displaystyle R^n}$ with usual metric, then A is closed and bounded.

If ${\displaystyle X={ℝ}^n}$, with the usual metric, then every closed and bounded subset of X is compact.

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