(L) operator - translation to Αγγλικά
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(L) operator - translation to Αγγλικά

LINEAR OPERATOR DEFINED ON A DENSE LINEAR SUBSPACE
Closed operator; Closeable operator; Closable operator; Closed unbounded operator; Closure of an operator; Unbounded linear operator

(L) operator      
(n.) = operador (L)
Ex: The (L) operator is available in databases in which the Descriptors are composed of a main heading and subheading and is used to link a heading with a subheading.
L         
  • Latin L
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  • x35px
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LETTER OF THE LATIN ALPHABET
ℓ; El (letter); L; \ell; ⅂; ⅃; L (letter); ASCII 76; ASCII 108; U+004C; U+006C; Letter L; Ꞁ; L+Ratio; L + Ratio
----
* (L) operator = operador (L)
* L-shaped = en forma de L
* M.L.S. (Master in Library Science) = Licenciatura en Documentación
* s.l. (sine loco) = s.l. (sine loco)
L         
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LETRA DEL ALFABETO LATINO
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* operador (L) = (L) operator.

Ορισμός

Lactobacillus acidophilus
lactobacilo que produce la fermentación de la leche

Βικιπαίδεια

Unbounded operator

In mathematics, more specifically functional analysis and operator theory, the notion of unbounded operator provides an abstract framework for dealing with differential operators, unbounded observables in quantum mechanics, and other cases.

The term "unbounded operator" can be misleading, since

  • "unbounded" should sometimes be understood as "not necessarily bounded";
  • "operator" should be understood as "linear operator" (as in the case of "bounded operator");
  • the domain of the operator is a linear subspace, not necessarily the whole space;
  • this linear subspace is not necessarily closed; often (but not always) it is assumed to be dense;
  • in the special case of a bounded operator, still, the domain is usually assumed to be the whole space.

In contrast to bounded operators, unbounded operators on a given space do not form an algebra, nor even a linear space, because each one is defined on its own domain.

The term "operator" often means "bounded linear operator", but in the context of this article it means "unbounded operator", with the reservations made above. The given space is assumed to be a Hilbert space. Some generalizations to Banach spaces and more general topological vector spaces are possible.