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Inclusion map
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{{Short description|Set-theoretic function}} [[File:Venn A subset B.svg|150px|thumb|right|<math>A</math> is a [[subset]] of <math>B,</math> and <math>B</math> is a [[Subset|superset]] of <math>A.</math>]] In [[mathematics]], if <math>A</math> is a [[subset]] of <math>B,</math> then the '''inclusion map''' is the [[function (mathematics)|function]] [[ι|<math>\iota</math>]] that sends each element <math>x</math> of <math>A</math> to <math>x,</math> treated as an element of <math>B:</math> <math display=block>\iota : A\rightarrow B, \qquad \iota(x)=x.</math> An inclusion map may also be referred to as an '''inclusion function''', an '''insertion''',<ref>{{cite book| first1 = S. | last1 = MacLane | first2 = G. | last2 = Birkhoff | title = Algebra | publisher = AMS Chelsea Publishing |location=Providence, RI | year = 1967| isbn = 0-8218-1646-2 | page = 5 | quote = Note that “insertion” is a function {{math|''S'' → ''U''}} and "inclusion" a relation {{math|''S'' ⊂ ''U''}}; every inclusion relation gives rise to an insertion function.}}</ref> or a '''canonical injection'''. A "hooked arrow" ({{unichar|21AA|RIGHTWARDS ARROW WITH HOOK|ulink=Unicode}})<ref name="Unicode Arrows">{{cite web| title = Arrows – Unicode| url = https://www.unicode.org/charts/PDF/U2190.pdf| access-date = 2017-02-07|publisher=[[Unicode Consortium]]}}</ref> is sometimes used in place of the function arrow above to denote an inclusion map; thus: <math display=block>\iota: A\hookrightarrow B.</math> (However, some authors use this hooked arrow for any [[embedding]].) This and other analogous [[injective]] functions<ref>{{cite book| first = C. | last = Chevalley | title = Fundamental Concepts of Algebra | url = https://archive.org/details/fundamentalconce00chev_0 | url-access = registration | publisher = Academic Press|location= New York, NY | year = 1956| isbn = 0-12-172050-0 |page= [https://archive.org/details/fundamentalconce00chev_0/page/1 1]}}</ref> from [[substructure (mathematics)|substructures]] are sometimes called '''natural injections'''. Given any [[morphism]] <math>f</math> between [[object (category theory)|objects]] <math>X</math> and <math>Y</math>, if there is an inclusion map <math>\iota : A \to X</math> into the [[Domain of a function|domain]] <math>X</math>, then one can form the [[Restriction (mathematics)|restriction]] <math>f\circ \iota</math> of <math>f.</math> In many instances, one can also construct a canonical inclusion into the [[codomain]] <math>R \to Y</math> known as the [[range of a function|range]] of <math>f.</math>
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