Suppose that E is a closed connected infinite subset of a metric space X. Prove that...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y ∈ E ⇒ d(x,y) = 1. (a) Show E is a closed and bounded subset of X. (b) Show E is not compact. (c) Explain why E cannot be a subset of Rn for any n.

Let E and F be two disjoint closed subsets in metric space (X,d). Prove that there...

Let E and F be two disjoint closed subsets in metric space (X,d). Prove that there exist two disjoint open subsets U and V in (X,d) such that U⊃E and V⊃F

Suppose X and Y are connected subsets of metric space X, the X intersection Y is...

Suppose X and Y are connected subsets of metric space X, the X intersection Y is not empty. show Y union X is connected.

Suppose K is a nonempty compact subset of a metric space X and x∈X. Show, there...

Suppose K is a nonempty compact subset of a metric space X and x∈X. Show, there is a nearest point p∈K to x; that is, there is a point p∈K such that, for all other q∈K, d(p,x)≤d(q,x). [Suggestion: As a start, let S={d(x,y):y∈K} and show there is a sequence (qn) from K such that the numerical sequence (d(x,qn)) converges to inf(S).] Let X=R^2 and T={(x,y):x^2+y^2=1}. Show, there is a point z∈X and distinct points a,b∈T that are nearest points to...

If A and B are closed subsets of a metric space X, whose union and intersection...

If A and B are closed subsets of a metric space X, whose union and intersection are connected, show that A and B themselves are connected. Give an example showing that the assumption of closedness is essential.

Each of the following defines a metric space X which is a subset of R^2 with...

Each of the following defines a metric space X which is a subset of R^2 with the Euclidean metric, together with a subset E ⊂ X. For each, 1. Find all interior points of E, 2. Find all limit points of E, 3. Is E is open relative to X?, 4. E is closed relative to X? I don't worry about proofs just answers is fine! a) X = R^2, E = {(x,y) ∈R^2 : x^2 + y^2 = 1,...

Prove that a subset of a countably infinite set is finite or countably infinite.

Prove that a subset of a countably infinite set is finite or countably infinite.

Let A⊆(X,d) a metric space. Suppose there are an infinite number of elements in e1,e2,e3,...∈ A...

Let A⊆(X,d) a metric space. Suppose there are an infinite number of elements in e1,e2,e3,...∈ A such that d(ei,ej)=4 if i≠j and d(ei,ej)=0 if i=j for i,j=1,2,3... Prove that A is not totally bounded. (Please do not write in script and show all your steps and definitions used)

Let (X,d) be a metric space. Let E ⊆ X. Consider the set L of all...

Let (X,d) be a metric space. Let E ⊆ X. Consider the set L of all points in X which are limits of sequences contained in E. Prove or disprove the following: (a) L⊆E. (b) L⊆Ē. (c) L̄ ⊆ Ē.

Prove : If S is an infinite set then it has a subset A which is...

Prove : If S is an infinite set then it has a subset A which is not equal to S, but such that A ∼ S.