Suppose that S ⊆ R and T ⊆ R and both S and T are compact....

Suppose that V is a vector space and R and S are both subspaces of V...

Suppose that V is a vector space and R and S are both subspaces of V such that R ⊆ S. Prove that dim(R) ≤ dim(S). Give an example of V , R and S such that dim(R) < dim(S).

Prove or give a counter-example: (a) if R ⊂ S and T ⊂ U then T\...

Prove or give a counter-example: (a) if R ⊂ S and T ⊂ U then T\ S ⊂ U \R. (b) if R∪S⊂T∪U, R∩S= Ø and T⊂ R, then S ⊂ U. (c) if R ∩ S⊂T ∩ S then R⊂T. (d) R\ (S\T)=(R\S) \ T

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, d) be a compact metric space and let A ⊆ X. Suppose that A...

Let (X, d) be a compact metric space and let A ⊆ X. Suppose that A is not compact. Prove that there exists a continuous function f : A → R, from (A, d) to (R, d|·|), which is not uniformly continuous.

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?

Let E⊆R (R: The set of all real numbers) Prove that E is sequentially compact if...

Let E⊆R (R: The set of all real numbers) Prove that E is sequentially compact if and only if E is compact

Determine the interval(s) where r(t)=< t-1/((t^2) -1), 2e^3t , In(t+5) > is continuous. And Both r1(t)...

Determine the interval(s) where r(t)=< t-1/((t^2) -1), 2e^3t , In(t+5) > is continuous. And Both r1(t) = < t2, t4 > and  r2(t) = < t4, t8 > map out the same half parabolic graph. Notice that both r1(1) = < 1, 1 > and  r2(1) = < 1, 1 >. However, r'1(1) = < 2, 4 > and  r'2(1) = < 4, 8 >. Explain why the difference is logical and quantify the difference at t=1. Determine the interval(s) where r(t)=<t −...

Let S and T be nonempty subsets of R with the following property: s ≤ t...

Let S and T be nonempty subsets of R with the following property: s ≤ t for all s ∈ S and t ∈ T. (a) Show that S is bounded above and T is bounded below. (b) Prove supS ≤ inf T . (c) Given an example of such sets S and T where S ∩ T is nonempty. (d) Give an example of sets S and T where supS = infT and S ∩T is the empty set....

Suppose A is bounded and not compact. Prove that there is a function that is continuous...

Suppose A is bounded and not compact. Prove that there is a function that is continuous on A, but not uniformly continuous. Give an example of a set that is not compact, but every function continuous on that set is uniformly continuous.

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0...

PROVE USING IVT. Suppose f is a differentiable function on [s,t] and suppose f'(s) > 0 > f'(t). Then there's a point p in (s,t) where f'(p)=0.