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G RAPHING R ATIONAL F UNCTIONS GRAPHS OF RATIONAL FUNCTIONS C ONCEPT S UMMARY Let p (x ) and q (x ) be polynomials with no common factors other than 1.The.

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Presentation on theme: "G RAPHING R ATIONAL F UNCTIONS GRAPHS OF RATIONAL FUNCTIONS C ONCEPT S UMMARY Let p (x ) and q (x ) be polynomials with no common factors other than 1.The."— Presentation transcript:

1 G RAPHING R ATIONAL F UNCTIONS GRAPHS OF RATIONAL FUNCTIONS C ONCEPT S UMMARY Let p (x ) and q (x ) be polynomials with no common factors other than 1.The graph of the rational function has the following characteristics. f (x ) = = a m x m + a m – 1 x m – 1 + … + a 1 x + a 0 b n x n + b n – 1 x n – 1 + … + b 1 x + b 0 p (x )q (x )p (x )q (x ) 1. x - intercepts are the real zeros of p (x ) 2. vertical asymptote at each real zero of q (x ) 3. at most one horizontal asymptote

2 3. at most one horizontal asymptote at each zero of q (x ) G RAPHING R ATIONAL F UNCTIONS GRAPHS OF RATIONAL FUNCTIONS C ONCEPT S UMMARY f (x ) = = a m x m + a m – 1 x m – 1 + … + a 1 x + a 0 b n x n + b n – 1 x n – 1 + … + b 1 x + b 0 p (x )q (x )p (x )q (x ) If m > n, the graph has no horizontal asymptote. Its end behavior is the same as the graph of y = x m – n. a mb na mb n If m < n, the line y = 0 is a horizontal asymptote. If m = n, the line y = is a horizontal asymptote. a mb na mb n

3 Graphing a Rational Function (m < n) The bell-shaped graph passes through (–3, 0.4), (– 1, 2), (0, 4), (1,2), and (3, 0.4). The domain is all real numbers; the range is 0 < y  4. Graph y =. 4 x 2 + 1 State domain and range. S OLUTION The numerator has no zeros, so there is no x -intercept. The denominator has no real zeros, so there is no vertical asymptote. The degree of the numerator (0) is less than the degree of the denominator (2), so the line y = 0 (the x-axis) is a horizontal asymptote.

4 Graphing a Rational Function (m = n) Graph y =. 3x 2 x 2 – 4 The degree of the numerator (2) is equal to the degree of the denominator (2), so the horizontal asymptote is y = = 3. ambnambn S OLUTION The numerator has 0 as its only zero, so the graph has one x -intercept at (0, 0). The denominator can be factored as (x + 2)(x – 2), so the denominator has zeros at 2 and – 2. This implies vertical asymptotes at x = – 2 and x = 2.

5 To the left of x = – 2 To the right of x = 2 Between x = – 2 and x = 2 Graphing a Rational Function (m = n) To draw the graph, plot points between and beyond vertical asymptotes. Graph y =. 3x 2 x 2 – 4 4 5.4 –1 0 –1 5.4 4 – 4 – 3 –1 0 1 3 4 xy xy

6 Graphing a Rational Function (m > n) Graph y =. x 2 – 2x – 3 x + 4 The degree of the numerator (2) is greater than the degree of the denominator (1), so there is no horizontal asymptote and the end behavior of the graph of f is the same as the end behavior of the graph of y = x 2 – 1 = x. S OLUTION The numerator can be factored as ( x – 3) and ( x + 1); the x -intercepts are 3 and –1. The only zero of the denominator is – 4, so the only vertical asymptote is x = – 4.

7 Graphing a Rational Function (m > n) To draw the graph, plot points to the left and right of the vertical asymptote. To the left of x = – 4 To the right of x = – 4 Graph y =. x 2 – 2x – 3 x + 4 – 20.6 –19.2 – 22.5 2.5 – 0.75 – 0.5 0.63 2.1 –12 – 9 – 6 – 2 0 2 4 6 y xy xy

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