Show that the set of limit-point of any given set is a closed set.

Let A be a set and x a number. Show that x is a limit-point of...

Let A be a set and x a number. Show that x is a limit-point of A if and only if there exists a sequence x1 , x2 , . . . of distinct points in A that converges to x.

show the limit as x goes to c of the characteristic function of the Cantor set...

show the limit as x goes to c of the characteristic function of the Cantor set =0 when c is not in the Cantor set and the limit does not exist when c is in the Cantor set

1.) Given any set of 53 integers, show that there are two of them having the...

1.) Given any set of 53 integers, show that there are two of them having the property that either their sum or their difference is evenly divisible by 103. 2.) Let 2^N denote the set of all infinite sequences consisting entirely of 0’s and 1’s. Prove this set is uncountable.

If p is a limit point of a set A is a first countable space X,...

If p is a limit point of a set A is a first countable space X, then there is a sequence in A that converges to p.

Show that on any surface, homotopic simple closed curves are isotopic.

Show that on any surface, homotopic simple closed curves are isotopic.

Given a metric space Z and F⊆X⊆Z define F is relatively closed in X. Show, F...

Given a metric space Z and F⊆X⊆Z define F is relatively closed in X. Show, F is relatively closed in X if and only if there is a closed set C⊆Z such that F=C∩X.

Given a metric space Z and F⊆X⊆Z define F is relatively closed in X. Show, F...

Given a metric space Z and F⊆X⊆Z define F is relatively closed in X. Show, F is relatively closed in X if and only if there is a closed set C⊆Z such that F=C∩X.

Prove Corollary 4.22: A set of real numbers E is closed and bounded if and only...

Prove Corollary 4.22: A set of real numbers E is closed and bounded if and only if every infinite subset of E has a point of accumulation that belongs to E. Use Theorem 4.21: [Bolzano-Weierstrass Property] A set of real numbers is closed and bounded if and only if every sequence of points chosen from the set has a subsequence that converges to a point that belongs to E. Must use Theorem 4.21 to prove Corollary 4.22 and there should...

Fact 1) The closure of a set is closed. Fact 2) The closure of a set...

Fact 1) The closure of a set is closed. Fact 2) The closure of a set is the smallest (with respect to subsets) closed set containing the set.

Find the absolute extrema of the given function on the indicated closed and bounded set R....

Find the absolute extrema of the given function on the indicated closed and bounded set R. (Order your answers from smallest to largest x, then from smallest to largest y.) f(x, y) = x2 + y2 − 2y + 1  on  R = {(x, y)|x2 + y2 ≤ 81}