Introduction

We have previously discussed the function . Note that both the numerator and the denominator are polynomials ( is a constant polynomial). We can study what happens when we replace those with arbitrary polynomials.

Domains of Rational Functions

While we said it already, it is worth emphasizing that a rational functions is not defined when the polynomial in the denominator is equal to zero. That is, if is a rational function and both and are polynomials, than the domain of is all values of except those where . Notice, that finding the domain of a rational function is going to require finding the -intercepts of a polynomial!

Combining Rational Functions

When we add, subtract, multiply, or divide rational functions, we get another rational function. Let’s see why.

Adding and Subtracting Rational Functions

Given the rational functions and , we can rewrite them with a common denominator: and . Then, yielding another rational function, since both the numerator and denominator are polynomials.

This idea can be expanded to the sum of any two rational functions. Given two rational functions and , with , , , and being polynomials, then which has polynomials as its numerator and denominator and is therefore a rational function.

Furthermore, by replacing above with , we can see that subtracting two rational functions also yields a rational function. Note that the sum and difference of two rational functions are only defined when both rational functions are defined.

Multiplying and Dividing Rational Functions

Let’s look at multiplication. Given the rational functions and , we can write their product as , which has polynomials for its numerator and denominator, and is thus a rational function again.

Given two rational functions and , with , , , and being polynomials, then which has polynomials as its numerator and denominator and is therefore a rational function.

Furthermore, by swapping the roles of and , we can see that dividing two rational functions also results in a rational function. Note that the product of two rational functions is only defined when both rational functions are defined. In addition, the quotient of two rational functions is only defined when the dividend and the reciprocal of the divisor are defined.