Difference between revisions of "Surjection"

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A '''surjection''' is a [[function]] which takes each value in its [[codomain]] at some value in its [[domain]].  That is, the [[range]] (or [[image]]) of the function is equal to its codomain.  (For every function, the range is a subset of the codomain.)  In adjectival form, we say that a function is ''surjective'' or ''onto''.
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A ''surjection'' is a [[function]] which takes each value in its [[codomain]] at some value in its [[domain]].  That is, the [[range]] (or [[image]]) of the function is equal to its codomain.  (For every function, the range is a subset of the codomain.)  In adjectival form, we say that a function is ''surjective'' or ''onto''.
  
For instance, the function <math>f: \mathbb Z \to \mathbb Z</math> defined by <math>f(x) = x+1</math> is surjective because for every [[integer]] there is one more than some other integer, but the function <math>f: \mathbb N \to\mathbb N</math> defined by <math>f(x) = x+1</math> is not surjective because there exists a [[natural number]] which is not one more than any other natural number.
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For instance, the function <math>f: \mathbb Z \to \mathbb Z</math> defined by <math>f(x) = x+1</math> is surjective because for every [[integer]], there exists another integer one more than that integer, but the function <math>f: \mathbb N \to\mathbb N</math> defined by <math>f(x) = x+1</math> is not surjective because there exists a [[natural number]] which is not one more than any other natural number.
  
 
==See also ==
 
==See also ==

Latest revision as of 21:39, 13 May 2020

A surjection is a function which takes each value in its codomain at some value in its domain. That is, the range (or image) of the function is equal to its codomain. (For every function, the range is a subset of the codomain.) In adjectival form, we say that a function is surjective or onto.

For instance, the function $f: \mathbb Z \to \mathbb Z$ defined by $f(x) = x+1$ is surjective because for every integer, there exists another integer one more than that integer, but the function $f: \mathbb N \to\mathbb N$ defined by $f(x) = x+1$ is not surjective because there exists a natural number which is not one more than any other natural number.

See also

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