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

"The closed unit ball of an infinite-dimensional Banach space is not compact", why this does not...

"The closed unit ball of an infinite-dimensional Banach space is not compact", why this does not contradict Alaoglu's theorem?

Show that the closed unit ball in a Hilbert space H is compact if and only...

Show that the closed unit ball in a Hilbert space H is compact if and only if H is finite dimensional. HINT: The closed unit ball must contain any basis.

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

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

Suppose that E is a closed connected infinite subset of a metric space X. Prove that...

Suppose that E is a closed connected infinite subset of a metric space X. Prove that E is a perfect set.

Prove that if ? is a finite dimensional vector space over C, then every ? ∈...

Prove that if ? is a finite dimensional vector space over C, then every ? ∈ ℒ(? ) has an eigenvalue. (note: haven't learned the Fundamental Theorem of Algebra yet)

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...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y ∈ E ⇒ d(x,y) = 1. (a) Show E is a closed and bounded subset of X. (b) Show E is not compact. (c) Explain why E cannot be a subset of Rn for any n.

use the subspace theorem ( i) is it a non-empty space? ii) is it closed under...

use the subspace theorem ( i) is it a non-empty space? ii) is it closed under vector addition? iii)is it closed under scalar multiplication?) to decide whether the following is a real vector space with its usual operations: the set of all real polonomials of degree exactly n.

Let X be a topological space with topology T = P(X). Prove that X is finite...

Let X be a topological space with topology T = P(X). Prove that X is finite if and only if X is compact. (Note: You may assume you proved that if ∣X∣ = n, then ∣P(X)∣ = 2 n in homework 2, problem 2 and simply reference this. Hint: Ô⇒ follows from the fact that if X is finite, T is also finite (why?). Therefore every open cover is already finite. For the reverse direction, consider the contrapositive. Suppose X...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding...

MATH125: Unit 1 Individual Project Answer Form Mathematical Modeling and Problem Solving ALL questions below regarding SENDING A PACKAGE and PAINTING A BEDROOM must be answered. Show ALL step-by-step calculations, round all of your final answers correctly, and include the units of measurement. Submit this modified Answer Form in the Unit 1 IP Submissions area. All commonly used formulas for geometric objects are really mathematical models of the characteristics of physical objects. For example, a basketball, because it is a...