Factor completely and simplify. State the domain.

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Presentation transcript:

Factor completely and simplify. State the domain. List all possible rational zeros of f (x) = 2x^ 4 – x ^3 – 3x ^2 – 31x – 15 Find all the rational zeros of g (x) = x^ 4 – x^ 3 + 2x^ 2 – 4x – 8

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Lesson 2.5 Rational Function A rational function can be written in the form , where N(x) and D(x) are polynomials and D(x) 0. Example :

Horizontal and Vertical Asymptotes The domain of the a rational function are all real number except x-values that make the denominator D(x) = 0 Horizontal and Vertical Asymptotes 1. The line x = a is a vertical asymptote of the graph of f if as either from left or right. 2. The line y = b is a horizontal asymptote of the graph of f if

Asymptotes of Rational Function Let where N(x) and D(x) have no common factors: 1. There are vertical asymptotes at the Zero of D(x) 2. The graph has one or no horizontal asymptote determined by comparing the degree of N(x) and D(x) If n< m , y = 0 is the horizontal asymptote If n = m , the line is a horizontal asymptote If n > m , no horizontal asymptote

Guidelines for Analyzing Graphs of Rational Functions 1.Simplify if possible 2. Plot y – intercept(if any) by evaluating f(0) ; plot hole by evaluating simplified f. 3. Find zeros of numerator to find x – intercept 4. Find zeros of denominator to find vertical asymptotes. 5. Find and sketch any horizontal asymptotes. (Use the rule for H.A.) 6. Mini graphs (plot points between x-int and V.A.) 7. Use smooth curves to complete the graphs.

Example : Find the intercepts, vertical and horizontal asymptotes Example : Find the intercepts, vertical and horizontal asymptotes. Then sketch the graph of each function. (no common factor)

With Common Factor/s Find all asymptotes and sketch the graph.

Examples: 1. 2. 3.

Slant Asymptote If the degree of the numerator is exactly one more than the degree of the denominator, the graph of the function has a slant/oblique asymptote. (Use long division) Example: Sketch the graph of a. b.