Difference between revisions of "One-to-one functions"

To make it simple, for the function ${\displaystyle f(x)}$, all of the possible ${\displaystyle x}$ values constitute the domain, and all of the values ${\displaystyle f(x)}$ (${\displaystyle y}$ on the x-y plane) constitute the range. To put it in more formal terms, a function ${\displaystyle f}$ is a mapping of some element ${\displaystyle a\in A}$, called the domain, to exactly one element ${\displaystyle b\in B}$, called the range, such that ${\displaystyle f:A\to B}$. The image below should help explain the modern definition of a function:

${\displaystyle A}$ is the domain of the function while ${\displaystyle B}$ is the range. This transformation from set ${\displaystyle A}$ to ${\displaystyle B}$ is an example of one-to-one function.

A function is considered one-to-one if an element ${\displaystyle a\in A}$ from domain ${\displaystyle A}$ of function ${\displaystyle f}$, leads to exactly one element ${\displaystyle b\in B}$ from range ${\displaystyle B}$ of the function. By definition, since only one element ${\displaystyle b}$ is mapped by function ${\displaystyle f}$ from some element ${\displaystyle a}$, ${\displaystyle f:A\to B}$ implies that there exists only one element ${\displaystyle b}$ from the mapping. Therefore, there exists a one-to-one function because it complies with the definition of a function. This definition is similar to Figure 1.

• One-to-one functions. Written notes created by Professor Esparza, UTSA.