Find the domains of rational functions

A vertical asymptote represents a value at which a rational function is undefined, so that value is not in the domain of the function. A reciprocal function cannot have values in its domain that cause the denominator to equal zero. In general, to find the domain of a rational function, we need to determine which inputs would cause division by zero.

A General Note: Domain of a Rational Function

The domain of a rational function includes all real numbers except those that cause the denominator to equal zero.

How To: Given a rational function, find the domain.

  1. Set the denominator equal to zero.
  2. Solve to find the x-values that cause the denominator to equal zero.
  3. The domain is all real numbers except those found in Step 2.

Example 4: Finding the Domain of a Rational Function

Find the domain of [latex]f\left(x\right)=\frac{x+3}{{x}^{2}-9}\\[/latex].

Solution

Begin by setting the denominator equal to zero and solving.

[latex]\begin{cases} {x}^{2}-9=0 \hfill \\ \text{ }{x}^{2}=9\hfill \\ \text{ }x=\pm 3\hfill \end{cases}\\[/latex]

The denominator is equal to zero when [latex]x=\pm 3\\[/latex]. The domain of the function is all real numbers except [latex]x=\pm 3\\[/latex].

Analysis of the Solution

A graph of this function confirms that the function is not defined when [latex]x=\pm 3\\[/latex].

Graph of f(x)=1/(x-3) with its vertical asymptote at x=3 and its horizontal asymptote at y=0.

Figure 8

There is a vertical asymptote at [latex]x=3\\[/latex] and a hole in the graph at [latex]x=-3\\[/latex]. We will discuss these types of holes in greater detail later in this section.

Try It 4

Find the domain of [latex]f\left(x\right)=\frac{4x}{5\left(x - 1\right)\left(x - 5\right)}\\[/latex].

Solution