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Chapter 3. Polynomial and Rational Functions. 3.2 Polynomial Functions and Their Graphs, слайд №1

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Objectives: Identify polynomial functions. Recognize characteristics of graphs of polynomial functions. Determine end behavior. Use factoring to find zeros of polynomial functions. Identify zeros and their multiplicities. Use the Intermediate Value Theorem. Understand the relationship between degree and turning points. Graph polynomial functions.

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Definition of a Polynomial Function Let n be a nonnegative integer and let be real numbers, with The function defined by is called a polynomial function of degree n. The number an, the coefficient of the variable to the highest power, is called the leading coefficient.

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Graphs of Polynomial Functions – Smooth and Continuous Polynomial functions of degree 2 or higher have graphs that are smooth and continuous. By smooth, we mean that the graphs contain only rounded curves with no sharp corners. By continuous, we mean that the graphs have no breaks and can be drawn without lifting your pencil from the rectangular coordinate system.

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End Behavior of Polynomial Functions The end behavior of the graph of a function to the far left or the far right is called its end behavior. Although the graph of a polynomial function may have intervals where it increases or decreases, the graph will eventually rise or fall without bound as it moves far to the left or far to the right. The sign of the leading coefficient, an, and the degree, n, of the polynomial function reveal its end behavior.

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The Leading Coefficient Test As x increases or decreases without bound, the graph of the polynomial function eventually rises or falls. In particular, the sign of the leading coefficient, an, and the degree, n, of the polynomial function reveal its end behavior.

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The Leading Coefficient Test for (continued)

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Example: Using the Leading Coefficient Test Use the Leading Coefficient Test to determine the end behavior of the graph of The degree of the function is 4, which is even. Even-degree functions have graphs with the same behavior at each end. The leading coefficient, 1, is positive. The graph rises to the left and to the right.

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Zeros of Polynomial Functions If f is a polynomial function, then the values of x for which f(x) is equal to 0 are called the zeros of f. These values of x are the roots, or solutions, of the polynomial equation f(x) = 0. Each real root of the polynomial equation appears as an x-intercept of the graph of the polynomial function.

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Example: Finding Zeros of a Polynomial Function Find all zeros of We find the zeros of f by setting f(x) equal to 0 and solving the resulting equation. or

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Example: Finding Zeros of a Polynomial Function (continued) Find all zeros of The zeros of f are –2 and 2. The graph of f shows that each zero is an x-intercept. The graph passes through (0, –2) and (0, 2).

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Multiplicity and x-Intercepts If r is a zero of even multiplicity, then the graph touches the x-axis and turns around at r. If r is a zero of odd multiplicity, then the graph crosses the x-axis at r. Regardless of whether the multiplicity of a zero is even or odd, graphs tend to flatten out near zeros with multiplicity greater than one.

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Example: Finding Zeros and Their Multiplicities Find the zeros of and give the multiplicities of each zero. State whether the graph crosses the x-axis or touches the x-axis and turns around at each zero.

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Example: Finding Zeros and Their Multiplicities (continued) We find the zeros of f by setting f(x) equal to 0:

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Example: Finding Zeros and Their Multiplicities (continued) For the function

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The Intermediate Value Theorem Let f be a polynomial function with real coefficients. If f(a) and f(b) have opposite signs, then there is at least one value of c between a and b for which f(c) = 0. Equivalently, the equation f(x) = 0 has at least one real root between a and b.

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Example: Using the Intermediate Value Theorem Show that the polynomial function has a real zero between –3 and –2. We evaluate f at –3 and –2. If f(–3) and f(–2) have opposite signs, then there is at least one real zero between –3 and –2.

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Example: Using the Intermediate Value Theorem (continued) For f(–3) = –42 and f(–2) = 5. The sign change shows that the polynomial function has a real zero between –3 and –2.

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Turning Points of Polynomial Functions In general, if f is a polynomial function of degree n, then the graph of f has at most n – 1 turning points.

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A Strategy for Graphing Polynomial Functions

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Example: Graphing a Polynomial Function Use the five-step strategy to graph Step 1 Determine end behavior Identify the sign of an, the leading coefficient, and the degree, n, of the polynomial function. an = 2 and n = 3 The degree, 3, is odd. The leading coefficient, 2, is a positive number. The graph will rise on the right and fall on the left.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 2 Find x-intercepts (zeros of the function) by setting f(x) = 0. x = –2 is a zero of multiplicity 2. x = 3 is a zero of multiplicity 1.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 2 (continued) Find x-intercepts (zeros of the function) by setting f(x) = 0. x = –2 is a zero of multiplicity 2. The graph touches the x-axis at x = –2, flattens and turns around. x = 3 is a zero of multiplicity 1. The graph crosses the x-axis at x = 3.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 3 Find the y-intercept by computing f(0). The y-intercept is –24. The graph passes through the y-axis at (0, –24). To help us determine how to scale the graph, we will evaluate f(x) at x = 1 and x = 2.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 3 (continued) Find the y-intercept by computing f(0). The y-intercept is –24. The graph passes through the y-axis at (0, –24). To help us determine how to scale the graph, we will evaluate f(x) at x = 1 and x = 2.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 4 Use possible symmetry to help draw the graph. Our partial graph illustrates that we have neither y-axis symmetry nor origin symmetry.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 4 (continued) Use possible symmetry to help draw the graph. Our partial graph illustrated that we have neither y-axis symmetry nor origin symmetry. Using end behavior, intercepts, and the additional points, we graph the function.

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Example: Graphing a Polynomial Function (continued) Use the five-step strategy to graph Step 5 Use the fact that the maximum number of turning points of the graph is n-1 to check whether it is drawn correctly. The degree is 3. The maximum number of turning points will be 3 – 1 or 2. Because the graph has two turning points, we have not violated the maximum number possible.