If X⊂R and S is the collection of all sets relatively open in X, then (X,S)...

For each of the following sets X and collections T of open subsets decide whether the...

For each of the following sets X and collections T of open subsets decide whether the pair X, T satisfies the axioms of a topological space. If it does, determine the connected components of X. If it is not a topological space then exhibit one axiom that fails. (a) X = {1, 2, 3, 4} and T = {∅, {1}, {1, 2}, {2, 3}, {1, 2, 3}, {1, 2, 3, 4}}. (b) X = {1, 2, 3, 4} and T...

Let X = { x, y, z }. Let the list of open sets of X...

Let X = { x, y, z }. Let the list of open sets of X be Z1. Z1 = { {}, {x}, X }. Let Y = { a, b, c }. Let the list of open sets of Y be Z2. Z2 = { {}, {a, b}, Y }. Let f : X --> Y be defined as follows: f (x) = a, f (y) = b, f(z) = c Is f continuous? Prove or disprove using the...

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?

Let X be a topological space. Let S and T be topologies on X, where S...

Let X be a topological space. Let S and T be topologies on X, where S and T are not equal topologies. Suppose (X,S) is compact and (X,T) is Hausdorff. Prove that T is not contained in S.

Let X be a topological space. Let S and T be topologies on X, where S...

Let X be a topological space. Let S and T be topologies on X, where S and T are distinct topologies. Suppose (X,S) is compact and (X,T) is Hausdorff. Prove that T is not contained in S. how to solve?

(a) Let A ⊂ R be open and B ⊂ R. Define AB = {xy ∈...

(a) Let A ⊂ R be open and B ⊂ R. Define AB = {xy ∈ R : x ∈ A and y ∈ B}. Is AB necessarily open? Why? (b) Let S = {x ∈ R : x is irrational}. Is S closed? Why? Thank you!

For each of the following sets S, find sup(S) and inf(S) if they exist: (a) {x...

For each of the following sets S, find sup(S) and inf(S) if they exist: (a) {x ∈ R| x2 < 100} (b) {-3/n | n is a counting number} (c) {.9, .99, .999, .9999, .99999, …}

3. Which of the following sets spans P2(R)? (a) {1 + x, 2 + 2x 2}...

3. Which of the following sets spans P2(R)? (a) {1 + x, 2 + 2x 2} (b) {2, 1 + x + x 2 , 3 + 2x + 2x 2} (c) {1 + x, 1 + x 2 , x + x 2 , 1 + x + x 2} 4. Consider the vector space W = {(a, b) ∈ R 2 | b > 0} with defined by (a, b) ⊕ (c, d) = (ad + bc, bd)...

Let S be the set R∖{0,1}. Define functions from S to S by ϵ(x)=x, f(x)=1/(1−x), g(x)=(x−1)/x....

Let S be the set R∖{0,1}. Define functions from S to S by ϵ(x)=x, f(x)=1/(1−x), g(x)=(x−1)/x. Show that the collection {ϵ,f,g} generates a group under composition and compute the group operation table.

Let S be the set of all real circles, defined by (x-a)^2 + (y-b)^2=r^2. Define d(C1,C2)...

Let S be the set of all real circles, defined by (x-a)^2 + (y-b)^2=r^2. Define d(C1,C2) = √((a1 − a2)^2 + (b1 − b2)^2 + (r1 − r2)^2 so that S is a metric space. Prove that metric space S is NOT a complete metric space. Give a clear example. Describe points of C\S as limits of the appropriate sequences of circles, where C is the completion of S.