Identifying Asymptotes and Holes

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<h3>Identifying Asymptotes and Holes</h3>

A rational equation contains a fraction with a polynomial in both the numerator and denominator — for example; the equation y = (x – 2) / (x^2 – x – 2). When graphing rational equations, two important features are the asymptotes and the holes of the graph. Use algebraic techniques to determine the vertical asymptotes and holes of any rational equation so that you can accurately graph it without a calculator.

Step 1

Factor the polynomials in the numerator and denominator if possible. For example, the denominator in the equation (x – 2) / (x^2 – x – 2) factors to (x – 2)(x + 1). Some polynomials may have any rational factors, such as x^2 + 1.



Step 2

Set each factor in the denominator equal to zero and solve for the variable. If this factor does not appear in the numerator, then it is a vertical asymptote of the equation. If it does appear in the numerator, then it is a hole in the equation. In the example equation, solving x – 2 = 0 makes x = 2, which is a hole in the graph because the factor (x – 2) is also in the numerator. Solving x + 1 = 0 makes x = -1, which is a vertical asymptote of the equation.

Step 3

Determine the degree of the polynomials in the numerator and denominator. The degree of a polynomial is equal to its highest exponential value. In the example equation, the degree of the numerator (x – 2) is 1 and the degree of the denominator (x^2 – x – 2) is 2.

Step 4

Determine the leading coefficients of the two polynomials. The leading coefficient of a polynomial is the constant that is multiplied by the term with highest degree. The leading coefficient of both polynomials in the example equation is 1.

Step 5

Calculate the horizontal asymptotes of the equation using the following rules: 1) If the degree of the numerator is higher than the degree of the denominator, there are no horizontal asymptotes; 2) if the degree of the denominator is higher, the horizontal asymptote is y = 0; 3) if the degrees are equal, the horizontal asymptote is equal to the ratio of the leading coefficients; 4) if the degree of the numerator is one greater than the degree of the denominator, there is a slant asymptote.

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Dave Pennells

By Dave Pennells

Dave Pennells, MS, has contributed his expertise as a career consultant and training specialist across various fields for over 15 years. At City University of Seattle, he offers personal career counseling and conducts workshops focused on practical job search techniques, resume creation, and interview skills. With a Master of Science in Counseling, Pennells specializes in career consulting, conducting career assessments, guiding career transitions, and providing outplacement services. Her professional experience spans multiple sectors, including banking, retail, airlines, non-profit organizations, and the aerospace industry. Additionally, since 2001, he has been actively involved with the Career Development Association of Australia.