topics rational functions 14 - My Math Education

Finding Removable Discontinuities

In this video we will learn how to find removable discontinuities in a rational function and distinguish them from vertical asymptotes.

To find a removable discontinuity in a rational function, follow these steps:

Sometimes when finding vertical asymptotes for rational functions, what appears to be a vertical asymptote is actually a removable discontinuity.
Removable discontinuities are “holes” in a graph instead of an asymptote that the graph approaches but never reaches.
To find removable discontinuities, first look for the possible vertical asymptotes by setting the denominator equal to 0 and solving for x.
If you need help finding the vertical asymptotes, please see the video Finding Vertical Asymptotes.
To find a removable discontinuity or to see if one exists, begin by factoring the numerator and denominator completely.
Set each factor in the denominator = 0 and solve for x. These are the potential vertical asymptotes or removable discontinuities.
If there is a common factor in both the numerator and denominator, the result from that factor is a removable discontinuity instead of a vertical asymptote.
Fully factor the example \(f(x)=\frac{\textstyle x^2-4}{\textstyle x^2-7x+10}\) to \(f(x)=\frac{\textstyle (x+2)(x-2)}{\textstyle (x-5)(x-2)}\).
Set both factors in the denominator equal to 0 and solve. \(x-5=0\) and \(x-2=0\). So \(x=5\) and \(x=2\) are vertical asymptotes or removable discontinuities.
Since there is a common factor of \(x-2\) in the numerator and denominator, the result \(x=2\) is a removable discontinuity instead of a vertical asymptote. \(x=5\) remains a vertical asymptote since there is no matching factor in the numerator.

Here are some key points to keep in mind when finding removable discontinuities.

Removable discontinuities are found in the same way vertical asymptotes are found but are distinguished from vertical asymptotes by factors in the numerator and denominator that are exactly the same.
A removable discontinuity appears on the graph as a “hole” in the graph.
A graph could have no vertical asymptotes and multiple removable discontinuities, both vertical asymptotes and removable discontinuities, or only vertical asymptotes depending on the factors.

00:00 Introduction
00:23 \(y=\frac{\textstyle x^2-4}{\textstyle x^2-7x+10}\) example of finding removable discontinuities
03:19 \(y=\frac{\textstyle x^2+7x+12}{\textstyle x^2+x-6}\) example resulting in both a removable discontinuity and a vertical asymptote
04:45 \(y=\frac{\textstyle x^2-2x}{\textstyle 3x-6}\) example with no vertical asymptote
05:32 \(y=\frac{\textstyle x^2-x-2}{\textstyle x^2-5x-4}\) example with no removable discontinuity
07:10 Conclusion
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