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Download 2. f(x) = 2x 4+7x3-4x2-27x-18 a) Is (x-5) a likely factor
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November 12, 2014 Precalc Warm Up # 11-3 2 1. Divide x3 + 5x + 2x - 8 by x + 2. Was it a factor? If so, find all of the zeros. 2. f(x) = 2x +7x -4x -27x-18 4 3 2 let's have HW quiz at end of period if time allows. a) Is (x-5) a likely factor of f(x)? b) Is (3x+2) a likely factor of f(x)? c) Is (x-2) a likely factor of f(x)? d) Factor f(x) completely November 12, 2014 2 1. Divide x3 + 5x + 2x - 8 by x + 2. Was it a factor? should we use synthetic or long division ? November 12, 2014 2. f(x) = 2x4+7x3-4x2-27x-18 a) b) c) d) Is (x-5) a likely factor of f(x)? Is (3x+2) a likely factor of f(x)? Is (x-2) a likely factor of f(x)? Factor f(x) completely November 12, 2014 Questions on #11-1? Divide using long division. November 12, 2014 Divide using synthetic division November 12, 2014 Use synthetic division to show that x is a solution of the third degree polynomial equation, and factor completely. November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 November 12, 2014 DESCARTES'S RULE OF SIGNS: 1. the number of POSITIVE REAL ZEROs is either equal to the number of variations in sign of f(x) or less than that by an even integer. 2. the number of NEGATIVE REAL ZEROS is either equal to the number of variation in signs of f(-x) or less than that by an even integer. From our WU, we saw that f(x) = 2x4+7x3-4x2-27x-18 had four zeros: 2,-3, -1, and -3/2 f(x) has __ change in sign, which indicates that it has __ positive real zero. f(-x) = 2(-x)4 + 7(-x)3 -4(-x)2-27(-x) - 18 = Therefore f(-x) has __ changes in sign, indicating that it has __ or __ negative real zeros. November 12, 2014 HOW CAN THIS HELP US SOLVE HIGHER DEGREE EQUATIONS? Use Descartes's rule of signs to find all solutions to x4-3x3+x2+3x-2 = 0 November 12, 2014 We have also been taking advantage of the rational zero test Rational Zero Test: If f(x) = anxn + an-1xn-1 + ...+a1x + a0 has integer coefficients, then every rational zero of f is p/q, where p is a factor of constant term a0 and q is a factor of the leading coefficient an That looks more complicated than it is! It is just observing that if f(x) = 2x3+ 4x -5, then (3x+7) isn't a good factor guess. Which means -7/3 isn't going to be a zero. November 12, 2014 List all of the possible rational zeros of f. Using those and Descartes's rule of signs, find all of zeros and graph f(x)= -3x3+20x2-36x+16 November 12, 2014 List all of the possible rational zeros of f. Using those and Descartes's rule of signs, find all of zeros and graph f(x)= -3x3+20x2-36x+16 November 12, 2014 One last trick to have up your sleeve...... LOWER AND UPPER BOUND RULE Let f(x) be a polynomial with real coefficients and a positive leading coefficient. Suppose f(x) is divided by (x-c) using synthetic division. 1. If c>0 and each number in the last row is either positive or zero, then c is an UPPER BOUND for the zeros 2. If c<0 and the numbers in the last row are alternately positive and negative (0 counts either way), then c is a LOWER BOUND for the zeros November 12, 2014 Let's use this on finding the real zeros of f(x) = 3x3-2x2+15x-10 3 variations of signs, so either 3 or 1 positive real zeros f(-x) = -3x3-2x2-15x-10 No variations of signs, so no negative real zeros Try 1. If it is an upper bound, what does this tell us? November 12, 2014 #11-3 p. 211 box, 53
