Day: October 23, 2020

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202010230206 Sidenote of Clopen

Observe that both \emptyset and X are open and closed in X, i.e., clopen.

Proof. Pastime.

Remark. (S ‘s in several symbols )

S is a set of points.
S^{0}, the interior of set S, contains all interior points.
S', the derived set of set S, contains all accumulation/cluster/limit points.
\bar{S}, the closure of set S, contains all adherent points.
\partial S (also denoted by b(S) or S^{b}), the  boundary of set S, contains all boundary points.

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202010230028 Problem 2.4.11

Let (X,d) be a metric space, a\in X and 0<r<r'.

Prove that the set

\{ x\in X:\enspace r<d(x,a)<r' \}

is open in (X,d).

Setup.

Understand the definition given to each of the following:

First, what is meant by whether a set is open or not in some metric space?

Definition. (open set) Let (X,d) be a metric space. A set G\subset X is said to be an open set if it is a neighborhood of each of its points. (Equivalently, a set G\subset X is said to be an open set
if for each x\in G, there exists an r>0 such that S_r(x)\subset G.)

Please refer to pg. 20, Jain and Ahmad’s Metric Spaces.

Second, what is referred to as a neighborhood of some point(s)?

Definition. (neighborhood) Let (X,d) be a metric space and x\in X. A set N\subset X is said to be a neighborhood (nbd) of x
if there exists an open sphere centred at x and contained in N,
i.e., if S_r(x)\subset N for some r>0.

Please refer to pg. 19, Jain and Ahmad’s Metric Spaces.

Third, what is an open sphere?

Definition. (open sphere) Let (X,d) be a metric space. Let x\in X and r>0 be a real number. The open sphere with centre x and radius r, denoted by S_r(x), the subset of X given by S_r(x)=\{ y\in X:\enspace d(x,y)<r \} N.b. An open sphere is always non-empty since it contains its centre at least.

Please refer to pg. 16, Jain and Ahmad’s Metric Spaces.