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In
functional analysis Functional analysis is a branch of mathematical analysis, the core of which is formed by the study of vector spaces endowed with some kind of limit-related structure (e.g. Inner product space#Definition, inner product, Norm (mathematics)#Defini ...
and related areas of
mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in modern mathematics ...
, a sequence space is a
vector space In mathematics and physics, a vector space (also called a linear space) is a set whose elements, often called ''vectors'', may be added together and multiplied ("scaled") by numbers called '' scalars''. Scalars are often real numbers, but can ...
whose elements are infinite
sequence In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is calle ...
s of
real Real may refer to: Currencies * Brazilian real (R$) * Central American Republic real * Mexican real * Portuguese real * Spanish real * Spanish colonial real Music Albums * ''Real'' (L'Arc-en-Ciel album) (2000) * ''Real'' (Bright album) (2010) ...
or
complex numbers In mathematics, a complex number is an element of a number system that extends the real numbers with a specific element denoted , called the imaginary unit and satisfying the equation i^= -1; every complex number can be expressed in the form a ...
. Equivalently, it is a
function space In mathematics, a function space is a set of functions between two fixed sets. Often, the domain and/or codomain will have additional structure which is inherited by the function space. For example, the set of functions from any set into a vect ...
whose elements are functions from the
natural numbers In mathematics, the natural numbers are those numbers used for counting (as in "there are ''six'' coins on the table") and ordering (as in "this is the ''third'' largest city in the country"). Numbers used for counting are called ''cardinal n ...
to the
field Field may refer to: Expanses of open ground * Field (agriculture), an area of land used for agricultural purposes * Airfield, an aerodrome that lacks the infrastructure of an airport * Battlefield * Lawn, an area of mowed grass * Meadow, a grass ...
''K'' of real or complex numbers. The set of all such functions is naturally identified with the set of all possible
infinite sequence In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is called t ...
s with elements in ''K'', and can be turned into a
vector space In mathematics and physics, a vector space (also called a linear space) is a set whose elements, often called ''vectors'', may be added together and multiplied ("scaled") by numbers called '' scalars''. Scalars are often real numbers, but can ...
under the operations of
pointwise addition In mathematics, the qualifier pointwise is used to indicate that a certain property is defined by considering each value f(x) of some function f. An important class of pointwise concepts are the ''pointwise operations'', that is, operations defined ...
of functions and pointwise scalar multiplication. All sequence spaces are
linear subspace In mathematics, and more specifically in linear algebra, a linear subspace, also known as a vector subspaceThe term ''linear subspace'' is sometimes used for referring to flats and affine subspaces. In the case of vector spaces over the reals, li ...
s of this space. Sequence spaces are typically equipped with a
norm Naturally occurring radioactive materials (NORM) and technologically enhanced naturally occurring radioactive materials (TENORM) consist of materials, usually industrial wastes or by-products enriched with radioactive elements found in the envir ...
, or at least the structure of a
topological vector space In mathematics, a topological vector space (also called a linear topological space and commonly abbreviated TVS or t.v.s.) is one of the basic structures investigated in functional analysis. A topological vector space is a vector space that is als ...
. The most important sequence spaces in analysis are the spaces, consisting of the -power summable sequences, with the ''p''-norm. These are special cases of L''p'' spaces for the
counting measure In mathematics, specifically measure theory, the counting measure is an intuitive way to put a measure on any set – the "size" of a subset is taken to be the number of elements in the subset if the subset has finitely many elements, and infinity ...
on the set of natural numbers. Other important classes of sequences like
convergent sequence As the positive integer n becomes larger and larger, the value n\cdot \sin\left(\tfrac1\right) becomes arbitrarily close to 1. We say that "the limit of the sequence n\cdot \sin\left(\tfrac1\right) equals 1." In mathematics, the limit ...
s or null sequences form sequence spaces, respectively denoted ''c'' and ''c''0, with the
sup norm In mathematical analysis, the uniform norm (or ) assigns to real- or complex-valued bounded functions defined on a set the non-negative number :\, f\, _\infty = \, f\, _ = \sup\left\. This norm is also called the , the , the , or, when the ...
. Any sequence space can also be equipped with the
topology In mathematics, topology (from the Greek language, Greek words , and ) is concerned with the properties of a mathematical object, geometric object that are preserved under Continuous function, continuous Deformation theory, deformations, such ...
of
pointwise convergence In mathematics, pointwise convergence is one of Modes of convergence (annotated index), various senses in which a sequence of functions can Limit (mathematics), converge to a particular function. It is weaker than uniform convergence, to which it i ...
, under which it becomes a special kind of
Fréchet space In functional analysis and related areas of mathematics, Fréchet spaces, named after Maurice Fréchet, are special topological vector spaces. They are generalizations of Banach spaces (normed vector spaces that are complete with respect to the ...
called
FK-space In functional analysis and related areas of mathematics a FK-space or Fréchet coordinate space is a sequence space equipped with a topological structure such that it becomes a Fréchet space. FK-spaces with a normable topology are called BK-space ...
.


Definition

A
sequence In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is calle ...
x_ = \left(x_n\right)_ in a set X is just an X-valued map x_ : \N \to X whose value at n \in \N is denoted by x_n instead of the usual parentheses notation x(n).


Space of all sequences

Let \mathbb denote the field either of real or complex numbers. The set \mathbb^ of all
sequences In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is called t ...
of elements of \mathbb is a
vector space In mathematics and physics, a vector space (also called a linear space) is a set whose elements, often called ''vectors'', may be added together and multiplied ("scaled") by numbers called '' scalars''. Scalars are often real numbers, but can ...
for componentwise addition :\left(x_n\right)_ + \left(y_n\right)_ = \left(x_n + y_n\right)_, and componentwise
scalar multiplication In mathematics, scalar multiplication is one of the basic operations defining a vector space in linear algebra (or more generally, a module in abstract algebra). In common geometrical contexts, scalar multiplication of a real Euclidean vector by ...
:\alpha\left(x_n\right)_ = \left(\alpha x_n\right)_. A sequence space is any
linear subspace In mathematics, and more specifically in linear algebra, a linear subspace, also known as a vector subspaceThe term ''linear subspace'' is sometimes used for referring to flats and affine subspaces. In the case of vector spaces over the reals, li ...
of \mathbb^. As a topological space, \mathbb^ is naturally endowed with the
product topology In topology and related areas of mathematics, a product space is the Cartesian product of a family of topological spaces equipped with a natural topology called the product topology. This topology differs from another, perhaps more natural-seemin ...
. Under this topology, \mathbb^ is Fréchet, meaning that it is a
complete Complete may refer to: Logic * Completeness (logic) * Completeness of a theory, the property of a theory that every formula in the theory's language or its negation is provable Mathematics * The completeness of the real numbers, which implies t ...
,
metrizable In topology and related areas of mathematics, a metrizable space is a topological space that is homeomorphic to a metric space. That is, a topological space (X, \mathcal) is said to be metrizable if there is a metric d : X \times X \to , \infty) ...
, locally convex
topological vector space In mathematics, a topological vector space (also called a linear topological space and commonly abbreviated TVS or t.v.s.) is one of the basic structures investigated in functional analysis. A topological vector space is a vector space that is als ...
(TVS). However, this topology is rather pathological: there are no
continuous Continuity or continuous may refer to: Mathematics * Continuity (mathematics), the opposing concept to discreteness; common examples include ** Continuous probability distribution or random variable in probability and statistics ** Continuous ...
norms on \mathbb^ (and thus the product topology cannot be defined by any
norm Naturally occurring radioactive materials (NORM) and technologically enhanced naturally occurring radioactive materials (TENORM) consist of materials, usually industrial wastes or by-products enriched with radioactive elements found in the envir ...
). Among Fréchet spaces, \mathbb^ is minimal in having no continuous norms: But the product topology is also unavoidable: \mathbb^ does not admit a strictly coarser Hausdorff, locally convex topology. For that reason, the study of sequences begins by finding a strict
linear subspace In mathematics, and more specifically in linear algebra, a linear subspace, also known as a vector subspaceThe term ''linear subspace'' is sometimes used for referring to flats and affine subspaces. In the case of vector spaces over the reals, li ...
of interest, and endowing it with a topology ''different'' from the
subspace topology In topology and related areas of mathematics, a subspace of a topological space ''X'' is a subset ''S'' of ''X'' which is equipped with a topology induced from that of ''X'' called the subspace topology (or the relative topology, or the induced to ...
.


spaces

For 0 < p < \infty, \ell^p is the subspace of \mathbb^ consisting of all sequences x_ = \left(x_n\right)_ satisfying \sum_n , x_n, ^p < \infty. If p \geq 1, then the real-valued function \, \cdot\, _p on \ell^p defined by \, x\, _p ~=~ \left(\sum_n, x_n, ^p\right)^ \qquad \text x \in \ell^p defines a
norm Naturally occurring radioactive materials (NORM) and technologically enhanced naturally occurring radioactive materials (TENORM) consist of materials, usually industrial wastes or by-products enriched with radioactive elements found in the envir ...
on \ell^p. In fact, \ell^p is a
complete metric space In mathematical analysis, a metric space is called complete (or a Cauchy space) if every Cauchy sequence of points in has a limit that is also in . Intuitively, a space is complete if there are no "points missing" from it (inside or at the boun ...
with respect to this norm, and therefore is a
Banach space In mathematics, more specifically in functional analysis, a Banach space (pronounced ) is a complete normed vector space. Thus, a Banach space is a vector space with a metric that allows the computation of vector length and distance between vector ...
. If p = 2 then \ell^2 is also a
Hilbert space In mathematics, Hilbert spaces (named after David Hilbert) allow generalizing the methods of linear algebra and calculus from (finite-dimensional) Euclidean vector spaces to spaces that may be infinite-dimensional. Hilbert spaces arise natural ...
when endowed with its canonical
inner product In mathematics, an inner product space (or, rarely, a Hausdorff space, Hausdorff pre-Hilbert space) is a real vector space or a complex vector space with an operation (mathematics), operation called an inner product. The inner product of two ve ...
, called the , defined for all x_\bull, y_\bull \in \ell^p by \langle x_\bull, y_\bull \rangle ~=~ \sum_n \overline y_n. The canonical norm induced by this inner product is the usual \ell^2-norm, meaning that \, \mathbf\, _2 = \sqrt for all \mathbf \in \ell^p. If p = \infty, then \ell^ is defined to be the space of all
bounded sequence In mathematics, a function ''f'' defined on some set ''X'' with real or complex values is called bounded if the set of its values is bounded. In other words, there exists a real number ''M'' such that :, f(x), \le M for all ''x'' in ''X''. A func ...
s endowed with the norm \, x\, _\infty ~=~ \sup_n , x_n, , \ell^ is also a Banach space. If 0 < p < 1, then \ell^p does not carry a norm, but rather a
metric Metric or metrical may refer to: * Metric system, an internationally adopted decimal system of measurement * An adjective indicating relation to measurement in general, or a noun describing a specific type of measurement Mathematics In mathema ...
defined by d(x,y) ~=~ \sum_n \left, x_n - y_n\^p.\,


''c'', ''c''0 and ''c''00

A is any sequence x_ \in \mathbb^ such that \lim_ x_n exists. The set of all convergent sequences is a vector subspace of \mathbb^ called the . Since every convergent sequence is bounded, c is a linear subspace of \ell^. Moreover, this sequence space is a closed subspace of \ell^ with respect to the
supremum norm In mathematical analysis, the uniform norm (or ) assigns to real- or complex-valued bounded functions defined on a set the non-negative number :\, f\, _\infty = \, f\, _ = \sup\left\. This norm is also called the , the , the , or, when the ...
, and so it is a Banach space with respect to this norm. A sequence that converges to 0 is called a and is said to . The set of all sequences that converge to 0 is a closed vector subspace of c that when endowed with the
supremum norm In mathematical analysis, the uniform norm (or ) assigns to real- or complex-valued bounded functions defined on a set the non-negative number :\, f\, _\infty = \, f\, _ = \sup\left\. This norm is also called the , the , the , or, when the ...
becomes a Banach space that is denoted by and is called the or the . The , is the subspace of c_0 consisting of all sequences which have only finitely many nonzero elements. This is not a closed subspace and therefore is not a Banach space with respect to the infinity norm. For example, the sequence \left(x_\right)_ where x_ = 1/k for the first n entries (for k = 1, \ldots, n) and is zero everywhere else (that is, \left(x_\right)_ = \left(1, 1/2, \ldots, 1/(n-1), 1/n, 0, 0, \ldots\right)) is a
Cauchy sequence In mathematics Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes. These topics are represented in m ...
but it does not converge to a sequence in c_.


Space of all finite sequences

Let :\mathbb^=\left\ , denote the space of finite sequences over \mathbb. As a vector space, \mathbb^ is equal to c_, but \mathbb^ has a different topology. For every
natural number In mathematics, the natural numbers are those numbers used for counting (as in "there are ''six'' coins on the table") and ordering (as in "this is the ''third'' largest city in the country"). Numbers used for counting are called ''Cardinal n ...
let \mathbb^n denote the usual
Euclidean space Euclidean space is the fundamental space of geometry, intended to represent physical space. Originally, that is, in Euclid's Elements, Euclid's ''Elements'', it was the three-dimensional space of Euclidean geometry, but in modern mathematics ther ...
endowed with the
Euclidean topology In mathematics, and especially general topology, the Euclidean topology is the natural topology induced on n-dimensional Euclidean space \R^n by the Euclidean distance, Euclidean metric. Definition The Euclidean norm on \R^n is the non-negative f ...
and let \operatorname_ : \mathbb^n \to \mathbb^ denote the canonical inclusion :\operatorname_\left(x_1, \ldots, x_n\right) = \left(x_1, \ldots, x_n, 0, 0, \ldots \right). The
image An image is a visual representation of something. It can be two-dimensional, three-dimensional, or somehow otherwise feed into the visual system to convey information. An image can be an artifact, such as a photograph or other two-dimensiona ...
of each inclusion is :\operatorname \left( \operatorname_ \right) = \left\ = \mathbb^n \times \left\ and consequently, :\mathbb^ = \bigcup_ \operatorname \left( \operatorname_ \right). This family of inclusions gives \mathbb^ a
final topology In general topology and related areas of mathematics, the final topology (or coinduced, strong, colimit, or inductive topology) on a set X, with respect to a family of functions from topological spaces into X, is the finest topology on X that make ...
\tau^, defined to be the
finest topology In topology and related areas of mathematics, the set of all possible topologies on a given set forms a partially ordered set. This order relation can be used for comparison of the topologies. Definition A topology on a set may be defined as th ...
on \mathbb^ such that all the inclusions are continuous (an example of a
coherent topology In topology, a coherent topology is a topology that is uniquely determined by a family of subspaces. Loosely speaking, a topological space is coherent with a family of subspaces if it is a ''topological union'' of those subspaces. It is also somet ...
). With this topology, \mathbb^ becomes a
complete Complete may refer to: Logic * Completeness (logic) * Completeness of a theory, the property of a theory that every formula in the theory's language or its negation is provable Mathematics * The completeness of the real numbers, which implies t ...
, Hausdorff,
locally convex In functional analysis and related areas of mathematics, locally convex topological vector spaces (LCTVS) or locally convex spaces are examples of topological vector spaces (TVS) that generalize normed spaces. They can be defined as topological ve ...
,
sequential In mathematics, a sequence is an enumerated collection of objects in which repetitions are allowed and order matters. Like a set, it contains members (also called ''elements'', or ''terms''). The number of elements (possibly infinite) is called t ...
,
topological vector space In mathematics, a topological vector space (also called a linear topological space and commonly abbreviated TVS or t.v.s.) is one of the basic structures investigated in functional analysis. A topological vector space is a vector space that is als ...
that is Fréchet–Urysohn. The topology \tau^ is also strictly finer than the
subspace topology In topology and related areas of mathematics, a subspace of a topological space ''X'' is a subset ''S'' of ''X'' which is equipped with a topology induced from that of ''X'' called the subspace topology (or the relative topology, or the induced to ...
induced on \mathbb^ by \mathbb^. Convergence in \tau^ has a natural description: if v \in \mathbb^ and v_ is a sequence in \mathbb^ then v_ \to v in \tau^ if and only v_ is eventually contained in a single image \operatorname \left( \operatorname_ \right) and v_ \to v under the natural topology of that image. Often, each image \operatorname \left( \operatorname_ \right) is identified with the corresponding \mathbb^n; explicitly, the elements \left( x_1, \ldots, x_n \right) \in \mathbb^n and \left( x_1, \ldots, x_n, 0, 0, 0, \ldots \right) are identified. This is facilitated by the fact that the subspace topology on \operatorname \left( \operatorname_ \right), the
quotient topology In topology and related areas of mathematics, the quotient space of a topological space under a given equivalence relation is a new topological space constructed by endowing the quotient set of the original topological space with the quotient t ...
from the map \operatorname_, and the Euclidean topology on \mathbb^n all coincide. With this identification, \left( \left(\mathbb^, \tau^\right), \left(\operatorname_\right)_\right) is the
direct limit In mathematics, a direct limit is a way to construct a (typically large) object from many (typically smaller) objects that are put together in a specific way. These objects may be groups, rings, vector spaces or in general objects from any categor ...
of the directed system \left( \left(\mathbb^n\right)_, \left(\operatorname_\right)_,\N \right), where every inclusion adds trailing zeros: :\operatorname_\left(x_1, \ldots, x_m\right) = \left(x_1, \ldots, x_m, 0, \ldots, 0 \right). This shows \left(\mathbb^, \tau^\right) is an
LB-space In mathematics, an ''LB''-space, also written (''LB'')-space, is a topological vector space X that is a locally convex inductive limit of a countable inductive system (X_n, i_) of Banach spaces. This means that X is a direct limit of a direct sys ...
.


Other sequence spaces

The space of bounded
series Series may refer to: People with the name * Caroline Series (born 1951), English mathematician, daughter of George Series * George Series (1920–1995), English physicist Arts, entertainment, and media Music * Series, the ordered sets used i ...
, denote by bs, is the space of sequences x for which :\sup_n \left\vert \sum_^n x_i \right\vert < \infty. This space, when equipped with the norm :\, x\, _ = \sup_n \left\vert \sum_^n x_i \right\vert, is a Banach space isometrically isomorphic to \ell^, via the
linear mapping In mathematics, and more specifically in linear algebra, a linear map (also called a linear mapping, linear transformation, vector space homomorphism, or in some contexts linear function) is a mapping V \to W between two vector spaces that pre ...
:(x_n)_ \mapsto \left(\sum_^n x_i\right)_. The subspace ''cs'' consisting of all convergent series is a subspace that goes over to the space ''c'' under this isomorphism. The space Φ or c_ is defined to be the space of all infinite sequences with only a finite number of non-zero terms (sequences with
finite support In mathematics, the support of a real-valued function f is the subset of the function domain containing the elements which are not mapped to zero. If the domain of f is a topological space, then the support of f is instead defined as the small ...
). This set is
dense Density (volumetric mass density or specific mass) is the substance's mass per unit of volume. The symbol most often used for density is ''ρ'' (the lower case Greek letter rho), although the Latin letter ''D'' can also be used. Mathematically ...
in many sequence spaces.


Properties of ℓ''p'' spaces and the space ''c''0

The space ℓ2 is the only ℓ''p'' space that is a
Hilbert space In mathematics, Hilbert spaces (named after David Hilbert) allow generalizing the methods of linear algebra and calculus from (finite-dimensional) Euclidean vector spaces to spaces that may be infinite-dimensional. Hilbert spaces arise natural ...
, since any norm that is induced by an
inner product In mathematics, an inner product space (or, rarely, a Hausdorff space, Hausdorff pre-Hilbert space) is a real vector space or a complex vector space with an operation (mathematics), operation called an inner product. The inner product of two ve ...
should satisfy the
parallelogram law In mathematics, the simplest form of the parallelogram law (also called the parallelogram identity) belongs to elementary geometry. It states that the sum of the squares of the lengths of the four sides of a parallelogram equals the sum of the s ...
:\, x+y\, _p^2 + \, x-y\, _p^2= 2\, x\, _p^2 + 2\, y\, _p^2. Substituting two distinct unit vectors for ''x'' and ''y'' directly shows that the identity is not true unless ''p'' = 2. Each is distinct, in that is a strict
subset In mathematics, Set (mathematics), set ''A'' is a subset of a set ''B'' if all Element (mathematics), elements of ''A'' are also elements of ''B''; ''B'' is then a superset of ''A''. It is possible for ''A'' and ''B'' to be equal; if they are ...
of whenever ''p'' < ''s''; furthermore, is not linearly
isomorphic In mathematics, an isomorphism is a structure-preserving mapping between two structures of the same type that can be reversed by an inverse mapping. Two mathematical structures are isomorphic if an isomorphism exists between them. The word is ...
to when . In fact, by Pitt's theorem , every bounded linear operator from to is
compact Compact as used in politics may refer broadly to a pact or treaty; in more specific cases it may refer to: * Interstate compact * Blood compact, an ancient ritual of the Philippines * Compact government, a type of colonial rule utilized in British ...
when . No such operator can be an isomorphism; and further, it cannot be an isomorphism on any infinite-dimensional subspace of , and is thus said to be
strictly singular In functional analysis, a branch of mathematics, a strictly singular operator is a bounded linear operator between normed spaces which is not bounded below on any infinite-dimensional subspace. Definitions. Let ''X'' and ''Y'' be normed linea ...
. If 1 < ''p'' < ∞, then the (continuous) dual space of ℓ''p'' is isometrically isomorphic to ℓ''q'', where ''q'' is the
Hölder conjugate In mathematics, two real numbers p, q>1 are called conjugate indices (or Hölder conjugates) if : \frac + \frac = 1. Formally, we also define q = \infty as conjugate to p=1 and vice versa References Additional references * * {{Lat ...
of ''p'': 1/''p'' + 1/''q'' = 1. The specific isomorphism associates to an element ''x'' of the functional L_x(y) = \sum_n x_n y_n for ''y'' in . Hölder's inequality implies that ''L''''x'' is a bounded linear functional on , and in fact , L_x(y), \le \, x\, _q\,\, y\, _p so that the operator norm satisfies :\, L_x\, _ \stackrel\sup_ \frac \le \, x\, _q. In fact, taking ''y'' to be the element of with :y_n = \begin 0&\text\ x_n=0\\ x_n^, x_n, ^q &\text~ x_n \neq 0 \end gives ''L''''x''(''y'') = , , ''x'', , ''q'', so that in fact :\, L_x\, _ = \, x\, _q. Conversely, given a bounded linear functional ''L'' on , the sequence defined by lies in ℓ''q''. Thus the mapping x\mapsto L_x gives an isometry \kappa_q : \ell^q \to (\ell^p)^*. The map :\ell^q\xrightarrow(\ell^p)^*\xrightarrow obtained by composing κ''p'' with the inverse of its
transpose In linear algebra, the transpose of a matrix is an operator which flips a matrix over its diagonal; that is, it switches the row and column indices of the matrix by producing another matrix, often denoted by (among other notations). The tr ...
coincides with the
canonical injection In mathematics, if A is a subset of B, then the inclusion map (also inclusion function, insertion, or canonical injection) is the function \iota that sends each element x of A to x, treated as an element of B: \iota : A\rightarrow B, \qquad \iot ...
of ℓ''q'' into its
double dual In mathematics, any vector space ''V'' has a corresponding dual vector space (or just dual space for short) consisting of all linear forms on ''V'', together with the vector space structure of pointwise addition and scalar multiplication by const ...
. As a consequence ℓ''q'' is a
reflexive space In the area of mathematics known as functional analysis, a reflexive space is a locally convex topological vector space (TVS) for which the canonical evaluation map from X into its bidual (which is the strong dual of the strong dual of X) is an iso ...
. By
abuse of notation In mathematics, abuse of notation occurs when an author uses a mathematical notation in a way that is not entirely formally correct, but which might help simplify the exposition or suggest the correct intuition (while possibly minimizing errors an ...
, it is typical to identify ℓ''q'' with the dual of ℓ''p'': (ℓ''p'')* = ℓ''q''. Then reflexivity is understood by the sequence of identifications (ℓ''p'')** = (ℓ''q'')* = ℓ''p''. The space ''c''0 is defined as the space of all sequences converging to zero, with norm identical to , , ''x'', , . It is a closed subspace of ℓ, hence a Banach space. The
dual Dual or Duals may refer to: Paired/two things * Dual (mathematics), a notion of paired concepts that mirror one another ** Dual (category theory), a formalization of mathematical duality *** see more cases in :Duality theories * Dual (grammatical ...
of ''c''0 is ℓ1; the dual of ℓ1 is ℓ. For the case of natural numbers index set, the ℓ''p'' and ''c''0 are separable, with the sole exception of ℓ. The dual of ℓ is the
ba space In mathematics, the ba space ba(\Sigma) of an algebra of sets \Sigma is the Banach space consisting of all bounded and finitely additive signed measures on \Sigma. The norm is defined as the variation, that is \, \nu\, =, \nu, (X). If Σ is ...
. The spaces ''c''0 and ℓ''p'' (for 1 ≤ ''p'' < ∞) have a canonical unconditional
Schauder basis In mathematics, a Schauder basis or countable basis is similar to the usual ( Hamel) basis of a vector space; the difference is that Hamel bases use linear combinations that are finite sums, while for Schauder bases they may be infinite sums. This ...
, where ''e''''i'' is the sequence which is zero but for a 1 in the ''i'' th entry. The space ℓ1 has the Schur property: In ℓ1, any sequence that is weakly convergent is also strongly convergent . However, since the
weak topology In mathematics, weak topology is an alternative term for certain initial topologies, often on topological vector spaces or spaces of linear operators, for instance on a Hilbert space. The term is most commonly used for the initial topology of a ...
on infinite-dimensional spaces is strictly weaker than the
strong topology In mathematics, a strong topology is a topology which is stronger than some other "default" topology. This term is used to describe different topologies depending on context, and it may refer to: * the final topology on the disjoint union * the to ...
, there are nets in ℓ1 that are weak convergent but not strong convergent. The ℓ''p'' spaces can be embedded into many
Banach space In mathematics, more specifically in functional analysis, a Banach space (pronounced ) is a complete normed vector space. Thus, a Banach space is a vector space with a metric that allows the computation of vector length and distance between vector ...
s. The question of whether every infinite-dimensional Banach space contains an isomorph of some ℓ''p'' or of ''c''0, was answered negatively by
B. S. Tsirelson Boris Semyonovich Tsirelson (May 4, 1950 – January 21, 2020) ( he, בוריס סמיונוביץ' צירלסון, russian: Борис Семёнович Цирельсон) was a Russian–Israeli mathematician and Professor of Mathematics ...
's construction of
Tsirelson space In mathematics, especially in functional analysis, the Tsirelson space is the first example of a Banach space in which neither an lp space, ℓ ''p'' space nor a Sequence space#c and c0, ''c''0 space can be embedded. The Tsirelson space is refl ...
in 1974. The dual statement, that every separable Banach space is linearly isometric to a quotient space of ℓ1, was answered in the affirmative by . That is, for every separable Banach space ''X'', there exists a quotient map Q:\ell^1 \to X, so that ''X'' is isomorphic to \ell^1 / \ker Q. In general, ker ''Q'' is not complemented in ℓ1, that is, there does not exist a subspace ''Y'' of ℓ1 such that \ell^1 = Y \oplus \ker Q. In fact, ℓ1 has uncountably many uncomplemented subspaces that are not isomorphic to one another (for example, take X=\ell^p; since there are uncountably many such ''X''s, and since no ℓ''p'' is isomorphic to any other, there are thus uncountably many ker ''Q''s). Except for the trivial finite-dimensional case, an unusual feature of ℓ''p'' is that it is not polynomially reflexive.


''p'' spaces are increasing in ''p''

For p\in ,\infty/math>, the spaces \ell^p are increasing in p, with the inclusion operator being continuous: for 1\le p, one has \, x\, _q\le\, x\, _p. Indeed, the inequality is homogeneous in the x_i, so it is sufficient to prove it under the assumption that \, x\, _p = 1. In this case, we need only show that \textstyle\sum , x_i, ^q \le 1 for q>p. But if \, x\, _p = 1, then , x_i, \le 1 for all i, and then \textstyle\sum , x_i, ^q \le \textstyle\sum , x_i, ^p = 1.


''ℓ''2 is isomorphic to all separable, infinite dimensional Hilbert spaces

Let H be a
separable Hilbert space In mathematics, Hilbert spaces (named after David Hilbert) allow generalizing the methods of linear algebra and calculus from (finite-dimensional) Euclidean vector spaces to spaces that may be infinite-dimensional. Hilbert spaces arise natura ...
. Every orthogonal set in H is at most countable (i.e. has finite
dimension In physics and mathematics, the dimension of a Space (mathematics), mathematical space (or object) is informally defined as the minimum number of coordinates needed to specify any Point (geometry), point within it. Thus, a Line (geometry), lin ...
or \,\aleph_0\,). The following two items are related: * If H is infinite dimensional, then it is isomorphic to ''ℓ''2 * If , then H is isomorphic to \Complex^N


Properties of ''ℓ''1 spaces

A sequence of elements in ''ℓ''1 converges in the space of complex sequences ''ℓ''1 if and only if it converges weakly in this space. If ''K'' is a subset of this space, then the following are equivalent: # ''K'' is compact; # ''K'' is weakly compact; # ''K'' is bounded, closed, and equismall at infinity. Here ''K'' being equismall at infinity means that for every \varepsilon > 0, there exists a natural number n_ \geq 0 such that \sum_^ , s_n , < \varepsilon for all s = \left( s_n \right)_^ \in K.


See also

* Lp space *
Tsirelson space In mathematics, especially in functional analysis, the Tsirelson space is the first example of a Banach space in which neither an lp space, ℓ ''p'' space nor a Sequence space#c and c0, ''c''0 space can be embedded. The Tsirelson space is refl ...
*
beta-dual space In functional analysis and related areas of mathematics, the beta-dual or -dual is a certain linear subspace of the algebraic dual of a sequence space. Definition Given a sequence space the -dual of is defined as :X^:= \left \. If is an FK- ...
*
Orlicz sequence space In mathematics, an Orlicz sequence space is any of certain class of linear spaces of scalar-valued sequences, endowed with a special norm, specified below, under which it forms a Banach space. Orlicz sequence spaces generalize the \ell_p space ...
*
Hilbert space In mathematics, Hilbert spaces (named after David Hilbert) allow generalizing the methods of linear algebra and calculus from (finite-dimensional) Euclidean vector spaces to spaces that may be infinite-dimensional. Hilbert spaces arise natural ...


References


Bibliography

* . * . * * . * * * . * {{Authority control Functional analysis Sequences and series