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Chapter 3. Polynomial and Rational Functions. 3.4 Zeros of Polynomial Functions, слайд №1

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Objectives: Use the Rational Zero Theorem to find possible rational zeros. Find zeros of a polynomial function. Solve polynomial equations. Use the Linear Factorization Theorem to find polynomials with given zeros. Use Descartes’ Rule of Signs.

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The Rational Zero Theorem If has integer coefficients and (where is reduced to lowest terms) is a rational zero of f, then p is a factor of the constant term, a0, and q is a factor of the leading coefficient, an.

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Example: Using the Rational Zero Theorem List all possible rational zeros of The constant term is –3 and the leading coefficient is 4. Factors of the constant term, –3: Factors of the leading coefficient, 4: Possible rational zeros are:

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Example: Finding Zeros of a Polynomial Function Find all zeros of We begin by listing all possible rational zeros. Possible rational zeros = We now use synthetic division to see if we can find a rational zero among the four possible rational zeros.

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Example: Finding Zeros of a Polynomial Function (continued) Find all zeros of Possible rational zeros are 1, –1, 2, and –2. We will use synthetic division to test the possible rational zeros. Neither –2 nor –1 is a zero. We continue testing possible rational zeros.

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Example: Finding Zeros of a Polynomial Function (continued) Find all zeros of Possible rational zeros are 1, –1, 2, and –2. We will use synthetic division to test the possible rational zeros. We have found that –2 and –1 are not rational zeros. We continue testing with 1 and 2. We have found a rational zero at x = 2.

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Example: Finding Zeros of a Polynomial Function (continued) Find all zeros of We have found a rational zero at x = 2. The result of synthetic division is: This means that We now solve

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Example: Finding Zeros of a Polynomial Function (continued) Find all zeros of We have found that We now solve

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Properties of Roots of Polynomial Equations 1. If a polynomial equation is of degree n, then counting multiple roots separately, the equation has n roots. 2. If a + bi is a root of a polynomial equation with real coefficients then the imaginary number a – bi is also a root. Imaginary roots, if they exist, occur in conjugate pairs.

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Example: Solving a Polynomial Equation Solve We begin by listing all possible rational roots: Possible rational roots = Possible rational roots are 1, –1, 13, and –13. We will use synthetic division to test the possible rational zeros.

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Example: Solving a Polynomial Equation (continued) Solve Possible rational roots are 1, –1, 13, and –13. We will use synthetic division to test the possible rational zeros. x = 1 is a root for this polynomial. We can rewrite the equation in factored form

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Example: Solving a Polynomial Equation (continued) Solve We have found that x = 1 is a root for this polynomial. In factored form, the polynomial is We now solve We begin by listing all possible rational roots. Possible rational roots = Possible rational roots are 1, –1, 13, and –13. We will use synthetic division to test the possible rational zeros.

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Example: Solving a Polynomial Equation (continued) Solve Possible rational roots are 1, –1, 13, and –13. We will use synthetic division to test the possible rational zeros. Because –1 did not work for the original polynomial, it is not necessary to test that value. The factored form of this polynomial is

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Example: Solving a Polynomial Equation (continued) Solve The factored form of this polynomial is We will use the quadratic formula to solve

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The Fundamental Theorem of Algebra If f(x) is a polynomial of degree n, where then the equation f(x) = 0 has at least one complex root.

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The Linear Factorization Theorem If where and then where c1, c2, ..., cn are complex numbers (possibly real and not necessarily distinct). In words: An nth-degree polynomial can be expressed as the product of a nonzero constant and n linear factors, where each linear factor has a leading coefficient of 1.

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Example: Finding a Polynomial Function with Given Zeros Find a third-degree polynomial function f(x) with real coefficients that has –3 and i as zeros and such that f(1) = 8. Because i is a zero and the polynomial has real coefficients, the conjugate, –i, must also be a zero. We can now use the Linear Factorization Theorem.

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Example: Finding a Polynomial Function with Given Zeros Find a third-degree polynomial function f(x) with real coefficients that has –3 and i as zeros and such that f(1) = 8. Applying the Linear Factorization Theorem, we found that

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Descartes’ Rule of Signs Let be a polynomial with real coefficients. 1. The number of positive real zeros of f is either a. the same as the number of sign changes of f(x) or b. less than the number of sign changes of f(x) by a positive even integer. If f(x) has only one variation in sign, then f has exactly one positive real zero.

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Descartes’ Rule of Signs (continued) Let be a polynomial with real coefficients. 2. The number of negative real zeros of f is either a. The same as the number of sign changes in f(–x) or b. less than the number of sign changes in f(–x) by a positive even integer. If f(–x) has only one variation in sign, then f has exactly one negative real zero

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Example: Using Descartes’ Rule of Signs Determine the possible number of positive and negative real zeros of 1. To find possibilities for positive real zeros, count the number of sign changes in the equation for f(x). There are 4 variations in sign. The number of positive real zeros of f is either 4, 2, or 0.

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Example: Using Descartes’ Rule of Signs Determine the possible number of positive and negative real zeros of 2. To find possibilities for negative real zeros, count the number of sign changes in the equation for f(–x). There are no variations in sign. There are no negative real roots for f.