Prove the following for the plane. a.) The intersection of two closed sets is closed. b.)...

Prove the following: The intersection of two open sets is compact if and only if it...

Prove the following: The intersection of two open sets is compact if and only if it is empty. Can the intersection of an infinite collection of open sets be a non-empty compact set?

Prove the following in the plane. a.) The complement of a closed set is open. b.)...

Prove the following in the plane. a.) The complement of a closed set is open. b.) The complement of an open set is closed.

Prove whether or not the intersection and union of two uncountable sets must be uncountable

Prove whether or not the intersection and union of two uncountable sets must be uncountable

Prove the following in the plane: a.) If a point lies in each of two neighborhoods...

Prove the following in the plane: a.) If a point lies in each of two neighborhoods N and M, it lies in a neighborhood in the intersection of N and M. b.) If p is a limit point of A, each neighborhood of p contains infinitely many points of A.

Given two sets A and B, the intersection of these sets, denoted A ∩ B, is...

Given two sets A and B, the intersection of these sets, denoted A ∩ B, is the set containing the elements that are in both A and B. That is, A ∩ B = {x : x ∈ A and x ∈ B}. Two sets A and B are disjoint if they have no elements in common. That is, if A ∩ B = ∅. Given two sets A and B, the union of these sets, denoted A ∪ B,...

If A and B are two finite sets. Prove that |A ∪ B| = |A| +...

If A and B are two finite sets. Prove that |A ∪ B| = |A| + |B| − |A ∩ B| is true.

This is a review question for Intro to Topology This is one question, multiple parts, so...

This is a review question for Intro to Topology This is one question, multiple parts, so please answer them all as it's one question. Be clear and concise with steps so I can follow, and please avoid cursive or quick writing as its hard to read. Thank you! (#5) Please answer and prove the questions below. Give an example of each as well after proving!! (a) Prove that the union of open sets is open. (b) Prove that the intersection...

{0,1} is closed but not open. Prove that it is closed and that it is not...

{0,1} is closed but not open. Prove that it is closed and that it is not open.

3. Prove or disprove the following statement: If A and B are finite sets, then |A...

3. Prove or disprove the following statement: If A and B are finite sets, then |A ∪ B| = |A| + |B|.

Prove that the union of two compact sets is compact using the fact that every open...

Prove that the union of two compact sets is compact using the fact that every open cover has a finite subcover.