is about metric spaces: Let X be a metric discret space show that a sequence x_n...

let Xn be a sequence in a metric space X . If Xn -> x in...

let Xn be a sequence in a metric space X . If Xn -> x in X iff every neighbourhood of x contains all but finitely many points of the terms of {Xn}

Suppose (an), a sequence in a metric space X, converges to L ∈ X. Show, if...

Suppose (an), a sequence in a metric space X, converges to L ∈ X. Show, if σ : N → N is one-one, then the sequence (bn = aσ(n))n also converges to L.

Let (x_n) from(n = 1 to ∞) be a sequence in R. Show that x ∈...

Let (x_n) from(n = 1 to ∞) be a sequence in R. Show that x ∈ R is an accumulation point of (x_n) from (n=1 to ∞) if and only if, for each ϵ > 0, there are infinitely many n ∈ N such that |x_n − x| < ϵ

Let X, Y be metric spaces, with Y complete. Let S ⊂ X and let f...

Let X, Y be metric spaces, with Y complete. Let S ⊂ X and let f : S → Y be uniformly continuous. (a) Suppose p ∈ S closure and (pn) is a sequence in S with pn → p. Show that (f(pn)) converges in y to some point yp.

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.

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...

Let X and Y be metric spaces. Let f be a continuous function from X onto...

Let X and Y be metric spaces. Let f be a continuous function from X onto Y, that is the image of f is equal to Y. Show that if X is compact, then Y is compact

Let (X, dX) and (Y, dY ) be metric spaces and let f : X →...

Let (X, dX) and (Y, dY ) be metric spaces and let f : X → Y be a continuous bijection. Prove that if (X, dX) is compact, then f is a homeomorphism

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5....

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5. Prove there is a point x in [0,1] where f(x)=5.

Let (X1,d1) and (X2,d2) be metric spaces, and let y∈X2. Define f:X1→X2 by f(x) =y for...

Let (X1,d1) and (X2,d2) be metric spaces, and let y∈X2. Define f:X1→X2 by f(x) =y for all x∈X1. Show that f is continuous. (TOPOLOGY)