Open-circuit time constant method: Difference between revisions

Revision as of 23:14, 4 October 2013

In functional analysis, a branch of mathematics, the Goldstine theorem, named after Herman Goldstine, asserts that the image of the closed unit ball $B_{X}$ of a Banach space $X$ under the canonical imbedding into the closed unit ball $B_{X^{* *}}$ of the bidual space $X^{* *}$ is weakly*-dense.

The conclusion of the theorem is not true for the norm topology, which can be seen by considering the Banach space of real sequences that converge to zero c₀, and its bi-dual space ℓ_∞.

Proof

Given an $x^{* *} \in B_{X^{* *}}$ , a tuple $(ϕ_{1}, \dots, ϕ_{n})$ of linearly independent elements of $X^{*}$ and a $δ > 0$ we shall find an $x \in (1 + δ) B_{X}$ such that $ϕ_{i} (x) = x^{* *} (ϕ_{i})$ for every $i = 1, \dots, n$ .

If the requirement $‖ x ‖ \leq 1 + δ$ is dropped, the existence of such an $x$ follows from the surjectivity of

Φ : X \to ℂ^{n}, x \mapsto (ϕ_{1} (x), \dots, ϕ_{n} (x)) .

Let now $Y : = ⋂_{i} \ker ϕ_{i} = \ker Φ$ . Every element of $(x + Y) \cap (1 + δ) B_{X}$ has the required property, so that it suffices to show that the latter set is not empty.

Assume that it is empty. Then $d i s t (x, Y) \geq 1 + δ$ and by the Hahn-Banach theorem there exists a linear form $ϕ \in X^{*}$ such that $ϕ |_{Y} = 0$ , $ϕ (x) \geq 1 + δ$ and $‖ ϕ ‖_{X^{*}} = 1$ . Then $ϕ \in s p a n (ϕ_{1}, \dots, ϕ_{n})$ and therefore

1 + δ \leq ϕ (x) = x^{* *} (ϕ) \leq ‖ ϕ ‖_{X^{*}} ‖ x^{* *} ‖_{X^{* *}} \leq 1,

which is a contradiction.

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+In [[functional analysis]], a branch of mathematics, the '''Goldstine theorem''', named after [[Herman Goldstine]], asserts that the image of the closed unit ball <math>B_X</math> of a [[Banach space]] <math>X</math> under the canonical imbedding into the closed unit ball <math>B_{X^{**}}</math> of the [[Dual space|bidual space]] <math>X^{**}</math> is [[Weak topology|weakly*]]-[[Dense set|dense]].
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+The conclusion of the theorem is not true for the norm topology, which can be seen by considering the Banach space  of real sequences that converge to zero [[c0 space|''c''<sub>0</sub>]], and its bi-dual space [[Lp space|ℓ<sub>∞</sub>]].
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+== Proof ==
+Given an <math>x^{**} \in B_{X^{**}}</math>, a tuple <math>(\phi_1, \dots, \phi_n)</math> of linearly independent elements of <math>X^*</math> and a <math>\delta>0</math> we shall find an <math>x \in (1+\delta) B_{X}</math> such that <math>\phi_i(x)=x^{**}(\phi_i)</math> for every <math>i=1,\dots,n</math>.
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+If the requirement <math>\|x\| \leq 1+\delta</math> is dropped, the existence of such an <math>x</math> follows from the surjectivity of
+:<math>\Phi : X \to \mathbb{C}^{n}, x \mapsto (\phi_1(x), \dots, \phi_n(x)).</math>
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+Let now <math>Y := \bigcap_i \ker \phi_i = \ker \Phi</math>.
+Every element of <math>(x+Y) \cap (1+\delta) B_{X}</math> has the required property, so that it suffices to show that the latter set is not empty.
+Assume that it is empty. Then <math>\mathrm{dist}(x,Y) \geq 1+\delta</math> and by the Hahn-Banach theorem there exists a linear form <math>\phi \in X^*</math> such that <math>\phi|_Y = 0</math>, <math>\phi(x) \geq 1+\delta</math> and <math>\|\phi\|_{X^*}=1</math>. Then <math>\phi \in \mathrm{span}(\phi_1, \dots, \phi_n)</math> and therefore
+:<math>1+\delta \leq \phi(x) = x^{**}(\phi) \leq \|\phi\|_{X^*} \|x^{**}\|_{X^{**}} \leq 1,</math>
+which is a contradiction.
+==See also==
+*[[Banach–Alaoglu theorem]]
+*[[Bishop–Phelps theorem]]
+*[[Eberlein–Šmulian theorem]]
+*[[Mazur's lemma]]
+*[[James' theorem]]
+{{Functional Analysis}}
+[[Category:Banach spaces]]
+[[Category:Functional analysis]]
+[[Category:Theorems in functional analysis]]
+[[de:Schwach-*-Topologie#Eigenschaften]]

Open-circuit time constant method: Difference between revisions

Revision as of 23:14, 4 October 2013

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