prove that a compact set is closed using the Heine - Borel theorem

Heine-Borel Theorem. a. State the Heine-Borel Theorem b. Assume A ⊆ R and B ⊆ R...

Heine-Borel Theorem. a. State the Heine-Borel Theorem b. Assume A ⊆ R and B ⊆ R . Prove using only the definition of an open set that if A and B are open sets then A∩ B is an open set. c. Assume C ⊆ R and D ⊆ R . Prove that if C and D are compact then C ∪ D is compact. There are two methods: Using the definition of compact or a proof that uses parts...

Show that if a set of real numbers E has the Heine-Borel property then it is...

Show that if a set of real numbers E has the Heine-Borel property then it is closed and bounded.

I need Heine Borel Theorem proof for R^n

I need Heine Borel Theorem proof for R^n

(A generalization of the nested interval theorem) Suppose {Sk} is a sequence of nonempty compact suubsets...

(A generalization of the nested interval theorem) Suppose {Sk} is a sequence of nonempty compact suubsets of Rn such that S1 ⊃ S2 ⊃ §3 ⊃ . . .. Show that ∩ ∞ k=1Sk 6= φ. (This can be done with either the Bolzano-Weierstrass theorem of the Heine-Borel theorem. Can you find both proofs?)

Prove the the closed unit ball of an infinite dimensional Banach space is not compact (use...

Prove the the closed unit ball of an infinite dimensional Banach space is not compact (use Riesz's lemma). Comment on why this does not contradict Alaoglu's theorem.

Prove that in R^n with the usual topology, if a set is closed and bounded then...

Prove that in R^n with the usual topology, if a set is closed and bounded then it is compact.

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...

A function f is said to be Borel measurable provided its domain E is a Borel...

A function f is said to be Borel measurable provided its domain E is a Borel set and for each c, the set {x in E l f(x) > c} is a Borel set. Prove that if f and g are Borel measurable functions that are defined on E and are finite almost everywhere on E, then for any real numbers a and b, af+bg is measurable on E and fg is measurable on E.

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.

Please prove the following theorem: Suppose (X,p) and (Y,b) are metric spaces, X is compact, and...

Please prove the following theorem: Suppose (X,p) and (Y,b) are metric spaces, X is compact, and f:X→Y is continuous. Then f is uniformly continuous.