Difference between revisions of "Functions:Forward Image"

In mathematics, the image of a function is the set of all output values it may produce.

More generally, evaluating a given function ${\displaystyle f}$ at each element of a given subset ${\displaystyle A}$ of its domain produces a set, called the "image of ${\displaystyle A}$ under (or through) ${\displaystyle f}$". Similarly, the inverse image (or preimage) of a given subset ${\displaystyle B}$ of the codomain of ${\displaystyle f}$, is the set of all elements of the domain that map to the members of ${\displaystyle B}$.

Image and inverse image may also be defined for general binary relations, not just functions.

Definition

The word "image" is used in three related ways. In these definitions, ${\displaystyle f:X\to \ Y}$ is a function from the set ${\displaystyle X}$ to the set ${\displaystyle Y}$.

Image of an element

If ${\displaystyle x}$ is a member of ${\displaystyle X}$, then the image of ${\displaystyle x}$ under ${\displaystyle f}$, denoted ${\displaystyle f(x)}$, is the value of ${\displaystyle f}$ when applied to ${\displaystyle x}$. ${\displaystyle f(x)}$ is alternatively known as the output of ${\displaystyle f}$ for argument ${\displaystyle x}$.

Given ${\displaystyle y}$, the function ${\displaystyle f}$ is said to "take the value ${\displaystyle y}$" or "take ${\displaystyle y}$ as a value" if there exists some ${\displaystyle x}$ in the function's domain such that ${\displaystyle f(x)=y}$. Similarly, given a set ${\displaystyle S}$, ${\displaystyle f}$ is said to "take a value in ${\displaystyle S}$" if there exists some ${\displaystyle x}$ in the function's domain such that ${\displaystyle f(x)\in S}$. However, "${\displaystyle f}$ takes all values in ${\displaystyle S}$" and "${\displaystyle f}$ is valued in ${\displaystyle S}$" means that ${\displaystyle f(x)\in S}$ for every point ${\displaystyle x}$ in ${\displaystyle f}$'s domain.

Image of a subset

The image of a subset {\displaystyle A\subseteq X}A\subseteq X under {\displaystyle f,}f, denoted {\displaystyle f[A],}{\displaystyle f[A],} is the subset of {\displaystyle Y}Y which can be defined using set-builder notation as follows:[1][2]

{\displaystyle f[A]=\{f(x):x\in A\}}{\displaystyle f[A]=\{f(x):x\in A\}} When there is no risk of confusion, {\displaystyle f[A]}{\displaystyle f[A]} is simply written as {\displaystyle f(A).}{\displaystyle f(A).} This convention is a common one; the intended meaning must be inferred from the context. This makes {\displaystyle f[\,\cdot \,]}{\displaystyle f[\,\cdot \,]} a function whose domain is the power set of {\displaystyle X}X (the set of all subsets of {\displaystyle X}X), and whose codomain is the power set of {\displaystyle Y.}Y. See § Notation below for more.

Image of a function

The image of a function is the image of its entire domain, also known as the range of the function.[3] This usage should be avoided because the word "range" is also commonly used to mean the codomain of {\displaystyle f.}f.

Generalization to binary relations

If {\displaystyle R}R is an arbitrary binary relation on {\displaystyle X\times Y,}{\displaystyle X\times Y,} then the set {\displaystyle \{y\in Y:xRy{\text{ for some }}x\in X\}}{\displaystyle \{y\in Y:xRy{\text{ for some }}x\in X\}} is called the image, or the range, of {\displaystyle R.}R. Dually, the set {\displaystyle \{x\in X:xRy{\text{ for some }}y\in Y\}}{\displaystyle \{x\in X:xRy{\text{ for some }}y\in Y\}} is called the domain of {\displaystyle R.}R.