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Lesson 15.2.notebook May 15, 2012 Lesson 15.2 Graphs and Zeros of Polynomials Lesson 15.2 When I die, I want to go peacefully like my Grandfather did, in his sleep not screaming, like the passengers in his car. Lesson 15.2.notebook May 15, 2012 Polynomial Definitions: The highest exponent in a set of terms. This Degree: defines the maximum number of zeros of a polynomial. Branches: The "parts" of a polynomial graph. Break the graph up into increasing, and decreasing to get the branches. Extreme Point (Vertex or Critical Point): Vertex: A maximum or minimum point on a graph. Critical Point: Occurs when the horizontal or vertical tangent line = 0. Lesson 15.2.notebook May 15, 2012 Definition : Zero of a Function A zero of a function f is an xvalue, c, for which f (c) = 0 Rational Root Theorem: Given a polynomial p is the integer factor of the constant term q is the integer factor of the leading coefficient All possible rational roots are in the form x=± Find the zeros of g(x) = 6x 3 + 17x 2 24x 35 Lesson 15.2.notebook Property : the Remainder Theorem If p(x) is a polynomial, then p(c) equals the remainder when p(x) is divided by the quantity (x c). Factor Theorem: The quantity (x c) is a factor of the polynomial p(x) iff p(c) = 0. Show that x 5 is a factor of f(x) = x 3 9x 2 x + 105. Write f(x) in factored form May 15, 2012 Lesson 15.2.notebook May 15, 2012 The Fundamental Theorem of Algebra A polynomial function has at least one zero in the set of complex numbers. Corollary: An n th degree polynomial function has exactly n zeros in the set of complex numbers, counting multiple zeros. Corollary: If a polynomial has only real coefficients, then any nonreal complex zeros appear in conjugate forms. Let f(x) = x3 4x2 3x+2. Show that 1 is a zero of f(x). Find the other two zeros, and check by graphing. Lesson 15.2.notebook May 15, 2012 Let g(x) = x3 4x2 3x+18. Show that 2 is a zero of g(x). Find the other two zeros, and check by graphing. Let h(x) = x3 4x2 3x+54. Show that 3 is a zero of h(x). Find the other two zeros, and check by graphing. Lesson 15.2.notebook May 15, 2012 Use the rational root theorem to find all zeros, real and non real of f(x) = x3 4x2 +22x+68. Assignment: 678 679 QR 1 10, 1 17 odd Lesson 15.2.notebook Lesson 15.2 Day 2 May 15, 2012 Lesson 15.2.notebook May 15, 2012 Lesson 15.2.notebook Exploration 15.2b 2. Mixed Number Form May 15, 2012 Lesson 15.2.notebook May 15, 2012 Property : Sums and Products of the zeros of a cubic function If the function p(x) = ax 3 + bx 2 + cx + d has zeros z 1, z 2, z 3 , then z 1 + z 2 + z 3 = b / a z 1 z 2 + z 1 z 3 + z 2 z 3 = c / a z 1 z 2 z 3 = d / a Find the particular equation of a cubic function w/ integer coefficients if the function's zeros have the given sum, product and sum of pairwise products. sum = 5 / 3 sum of pairwise products = 58 / 3 product = 40 / 3 Lesson 15.2.notebook Assignment: p. 679 – 680 19 – 27 odd, 34, 37 May 15, 2012
