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== 메타데이터 ==
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===위키데이터===
 
===위키데이터===
 
* ID :  [https://www.wikidata.org/wiki/Q194397 Q194397]
 
* ID :  [https://www.wikidata.org/wiki/Q194397 Q194397]
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===Spacy 패턴 목록===
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* [{'LOWER': 'banach'}, {'LEMMA': 'space'}]

2021년 2월 17일 (수) 00:50 기준 최신판

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말뭉치

  1. His dichotomy theorem asserts that either every subspace of a given Banach space has many symmetries or the subspaces have only trivial symmetries.[1]
  2. A Banach space assumes that there is a norm on the space relative to which the space is complete, but it is not assumed that the norm is defined in terms of an inner product.[2]
  3. If, as a result of these inclusions, the Banach space coincides with its second dual, it is called reflexive.[3]
  4. A Banach space is said to be weakly complete if each weak Cauchy sequence in it weakly converges to an element of the space.[3]
  5. An incomplete normed space is not homeomorphic to any Banach space.[3]
  6. In infinite-dimensional Banach spaces unconditional convergence follows from absolute convergence but the converse is not true in any infinite-dimensional Banach space.[3]
  7. It is clearly written and provides accessible references to many techniques that are commonly used in contemporary research in Banach space theory.[4]
  8. if you need to know what a dentable Banach space is, you can find out here … .[4]
  9. E. A Banach space is called hereditarily indecomposable, if none of its subspaces is decomposable.[5]
  10. Let E be a Banach space.[5]
  11. Now we present a dichotomy concerning geometric structure of the unit ball in a Banach space, which covers this extremal case.[5]
  12. Assume that E is a Banach space with a basis and satisfies the assumptions of the Lemma.[5]
  13. Usually, the notion of Banach space is only used in the infinite dimensional setting, typically as a vector space of functions.[6]
  14. While a Hilbert space is always a Banach space, the converse need not hold.[6]
  15. Therefore, it is possible for a Banach space not to have a norm given by an inner product.[6]
  16. In a finite-dimensional Banach space X, any continuous functional defined on a closed bounded set M attains its infimum.[7]
  17. Maurice René Fréchet was the first to use the term "Banach space" and Banach in turn then coined the term "Fréchet space.[8]
  18. A Banach space is a complete normed space (X, || ⋅ ||).[8]
  19. By definition, the normed space (X, || ⋅ ||) is a Banach space if and only if (X, d) is a complete metric space, or said differently, if and only if the canonical metric d is a complete metric.[8]
  20. With this topology, every Banach space is a Baire space, although there are normed spaces that are Baire but not Banach.[8]
  21. To begin, recall that a Banach space is a complete normed linear space.[9]
  22. Essentially self-contained, this reference explores a fundamental aspect of Banach space theory.[10]
  23. A Banach space ℬ \mathcal{B} is both a vector space (over a normed field such as ℝ \mathbb{R} ) and a complete metric space, in a compatible way.[11]
  24. Then a Banach space is simply a vector space equipped with a complete norm.[11]
  25. Thus a Banach space may equivalently be defined as a vector space equipped with a complete homogeneous translation-invariant metric.[11]
  26. As such, ℒ p ( X ) \mathcal{L}^p(X) is a complete pseudonormed vector space; but we identify functions that are equal almost everywhere to make it into a Banach space.[11]
  27. The Eberlein-Smulian theorem is obtained in this section, as is the result due to Krein and Smulian that the closed convex hull of a weakly compact subset of a Banach space is itself weakly compact.[12]
  28. The goal of optional Section 2.9 is to obtain James's characterization of weakly compact subsets of a Banach space in terms of the behavior of bounded linear functionals.[12]
  29. The book revolves around two main broad questions: What is the best smoothness of a given Banach space, and its structural consequences?[13]
  30. We show that the space of real functions, which are integrable with respect to a measure with values in a Banach space , has (D) property.[14]
  31. A Banach space is said to have property if every bounded linear operator is weakly compact for every Banach space whose dual does not contain an isomorphic copy of .[14]
  32. We show that every Banach space whose dual has property has property.[14]
  33. Given a vector measure with values in a Banach space , denotes the space of (classes of) real functions that are integrable with respect to in the sense of Bartle et al.[14]
  34. Then, is an s-Banach space when equipped with the norm .[15]

소스

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Spacy 패턴 목록

  • [{'LOWER': 'banach'}, {'LEMMA': 'space'}]