Lesson 19 Factoring Polynomials

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Fast Five Lesson 19 Factoring Polynomials Factor the number 38,754 (NO CALCULATOR) Divide 72,765 by 38 (NO CALCULATOR) Math 2 Honors - Santowski How would you know if 145 was a factor of 14,436,705? What about 215? 1 2 Lesson Objectives (A) Why do algebra with polynomials? Understand the similarities and differences between the algebraic processes involving second degree polynomials (quadratics) and higher order polynomials (cubics, quartics) Understand that factoring involves division and the connections between the 2 processes Mastery of the factoring of polynomials using the algebraic processes of long & synthetic division Introduce the remainder and rational root theorems and apply them to factor polynomials Reinforce the understanding of the connection between factors and roots In our work with quadratic polynomials, we focused on the algebraic analysis of quadratics WHY we were interested in finding either (i) points on the parabola, (ii) the extrema (vertex) or (iii) zeroes, x- intercepts, roots What we saw was that quadratics can be presented in three forms (standard, vertex, factored) from which we can perform simple algebra in order to determine the (i) points on the parabola, (ii) the extrema (vertex) or (iii) zeroes, x-intercepts, roots 3 4 (A) Why do algebra with polynomials? But now that we are consider further polynomials (cubics, quartics) do the same simple algebraic processes apply??? NO!! Through simple algebraic processes with polynomials, we can only easily determine the (i) points on the parabola, and (ii) zeroes, x-intercepts, roots To find the extrema (max,min), we need other algebraic processes CALCULUS (B) Algebra of Polynomials Evaluation of Polynomials It is relatively easy to EVALUATE any function simply substitute in a value for the variable i.e if P(x) = x 3 + 2x 2 x + 5, evaluate P(-1) so P(-1) = (-1) 3 + 2(-1) 2 (-1) + 5 = -1 + 2 + 1 + 5 = 7 So P(-1) = 7 GRAPHIC/NUMERIC connection it means that we have the order pair/point (-1,7) on our table of values and on our graph 5 6 1

(B) Algebra of Polynomials Evaluation of Polynomials Graphic & Numeric Connection (B) Algebra of Polynomials Evaluation of Polynomials examples Evaluate 4x 3-6x² + x - 3 for x = 2 Evaluate P(-4) if P(x) = 2x 3 +16x 2 + 23x - 36 (significance?????) Evaluate x 2 + 6x 3-5 for x = ½ Evaluate P(2) if P(x) = x 4 + 4x 3 + 2x² - 3x - 50 7 8 (C) Roots & Factors (D) Factoring The Process In our work with quadratics, we saw the factored form or intercept form of a quadratic equation/expression i.e. f(x) = x 2 x 2 = (x 2)(x + 1) factored form of eqn So when we solve f(x) = 0 0 = (x 2)(x + 1), we saw that the zeroes/x-intercepts/roots were x = 2 and x = -1 So we established the following connection: Factors (x - 2) and (x 1) Roots x = 2 and x = 1 So we will now reiterate the following connections: If (x R) is a factor of P(x), then x = R is root of P(x) AND THE CONVERSE If x = R is a root of P(x), then (x R) is a factor of P(x) So how do we factor in general? Factor the number 38,754 (2)(3)(3)(2153) KEY IDEA the PROCESS that we used was DIVISION 9 10 (E) Division of Polynomials (E) Division of Polynomials So, in order to factor, we need to be able to DIVIDE Q HOW do we divide polynomials?? Divide using LD 3x 3 + 13x² - 9x + 6 by x + 5 Divide using SD: 3x 3 + 13x² - 9x + 6 by x + 5 We will show you 2 ways to divide polynomials long division & synthetic division???????? 3 2 x 5 3x 13x 9x 6-5 3 13-9 6. Keep in mind WHY we are factoring the polynomials I will eventually ask for ROOTS 11 12 2

(F) Practice - Examples (G) Division & Factoring Connection Show examples 1,2,3 using both division methods ex 1. Divide x 3-42x + 30 by x - 6 ex 2. Divide x 2 + 6x 3-5 by 2x - 1 ex 3. Divide x 4 + 4x 3 + 2x² - 3x - 50 by x - 2 Recall WHY are we dividing? ANS to see if the divisor is a FACTOR of the dividend WHAT do we look for when we do the division to answer the factor question the remainder!! Is 4 a factor of 72? How do you know?? Is 5 a factor of 72? How do you know?? 13 14 So we have in place a method for factoring polynomials use division to see if the remainder is 0!! Is (x + 4) a factor of P(x) = 2x² + 7x + 3 When dividing (2x² + 7x + 3) by (x + 4) and we get 2x - 1 with a remainder of 4 Conclusions to be made (i) x + 4 is a not factor of 2x² + 7x + 3 (ii) x + 4 does not divide evenly into 2x² + 7x + 3 (iii) when 2x² + 7x + 3 is divided by x + 4, the remainder is 7 (iv) 2x² + 7x + 3 = (x + 4)(2x - 1) + 7 (v) (2x² + 7x + 3)/(x + 4) = 2x - 1 + 7/(x + 4) Show on GC and make connections (i) graph 2x² + 7x + 3 and see that x = -4 is not a root (ii) graph (2x² + 7x + 3)/(x + 4) and we see??? 15 16 So we have in place a method for factoring polynomials use division to see if the remainder is 0!! Q? Is x + 5 a factor of 3x 3 + 13x² - 9x + 6?? How do you know? Q? Is x + 5 a factor of 3x 3 + 13x² - 9x + 5?? How do you know? 17 18 3

Divide 3x 3 + 13x² - 9x + 5 by x + 5 conclusions to be made: - all 5 conclusions are equivalent and say mean the same thing (i) x + 5 is a factor of 3x 3 + 13x² - 9x + 5 (ii) x + 5 divides evenly into 3x 3 + 13x² - 9x + 5 (iii) when 3x 3 + 13x² - 9x + 5 is divided by x + 5, there is no remainder (iv) 3x 3 + 13x² - 9x + 5 = (x + 5)(3x² - 2x + 1) (v) (3x 3 + 13x² - 9x + 5 )/(x + 5) = 3x² - 2x + 1 Show on GC and make connections i) graph 3x 3 + 13x² - 9x + 5 and see that x = -5 is a root or a zero or an x-intercept ii) graph (3x 3 + 13x² - 9x + 5 )/(x + 5) and we see?? 19 20 Factor g(x) = x 3 + 2x 2-16x - 32 Factor P(x) = x 3-3x 2-2x + 6 Factor f(x) = x 3 x 2-14x + 24 Factor P(x) x 3 6x 2 + 13x 20 Factor y = x 3 + 4x 2 + 7x + 6 Factor y = x 3 9x 2 + 24x 16 Factor f(x) = x 4 + x 3 11x 2 9x + 18 Factor g(x) = x 4 3x 3 + 6x 2 2x - 12 Special Polynomials just like we saw perfect square trinomials and difference of square trinomials in our quadratics chapter, we have similar special cubics Factor x 3 8 Factor 27x 3-64 Now what would you generalize for (ax) 3 b 3? Factor x 3 + 8 Factor 27x 3 + 64 Now what would you generalize for (ax) 3 + b 3? 21 22 You are given the graph of y = 2x 3 + 4x 2 3x 6. Factor the polynomial and determine all roots You are given the graph of y = 4x 4 + 4x 3 29x 2 51x 18. Factor the polynomial and determine all roots 23 24 4

So in factoring P(x), we use the remainder of the division in order to make a decision about whether or not the x A is/is not a factor of P(x) So if we only want to find a remainder, is there another way (rather than only division?) YES there is it s called the Remainder Divide -2x 3 + 3x 2-39x - 20 by x + 1 Evaluate P(-1). What do you notice? What must be true about x + 1 Divide x 3 8x 2 + 11x + 5 by x - 2 Evaluate P(2). What do you notice? What must be true about (x 2)? Divide 3x 3 4x 2-2x - 5 by x + 1 Evaluate P(-1). What do you notice? EXPLAIN WHY THIS WORKS???? 25 26 Divide 3x 3 4x 2-2x - 5 by x + 1 Q(x) = (3x 2 7x + 5) with a remainder of -10 Evaluate P(-1) equals -10 EXPLAIN WHY THIS WORKS???? if rewritten as: 3x 3 4x 2-2x - 5 = (x + 1)(3x5-7x + 5) - 10, P(-1) = (-1 + 1)(3(-1)5 7(-1) + 5) 10 = -10 the remainder theorem states "when a polynomial, P(x), is divided by (ax - b), and the remainder contains no term in x, then the remainder is equal to P(b/a) PROVE WHY THIS IS TRUE?!?!?!?!? 27 28 (K) Factoring Polynomials The Remainder - Examples Factor the following polynomials using the RRT and the Remainder : P(x) = -2x 3 x 2 + 25x 12 P(x) = 4x 3 12x 2 19x + 12 P(x) = 12x 4 + 32x 3 15x 2 8x + 3 (K) Factoring Polynomials The Remainder - Connection So, from the graph on the right, determine the remainder when P(x) is divided by: (i) x + 2 (ii) x 2 (iii) x 4 29 30 5

(K) Factoring Polynomials The Remainder - Examples Find k so that when x 2 + 8x + k is divided by x - 2, the remainder is 3 Find the value of k so that when x 3 + 5x 2 + 6x + 11 is divided by x + k, the remainder is 3 When P(x) = ax 3 x 2 - x + b is divided by x - 1, the remainder is 6. When P(x) is divided by x + 2, the remainder is 9. What are the values of a and b? Use the remainder theorem to determine if (x 4) is a factor of P(x) if P(x) = x 4 16x 2 2x + 6 (L) Factoring Polynomials the Rational Root Our previous examples were slightly misleading as in too easy (leading coefficient was deliberately 1) Consider this example -12x 3 + 20x 2 + 33x 20 which when factored becomes (2x-1)(3x+4)(5-2x) so the roots would be ½, -4/3, and 5/2 Make the following observation that the numerator of the roots (1, -4, 5) are factors of the constant term (-20) while the denominator of the roots (2,3,2) are factors of the leading coefficient (-12) We can test this idea with other polynomials we will find the same pattern that the roots are in fact some combination of the factors of the leading coefficient and the constant term 31 32 (L) Factoring Polynomials the Rational Root Our previous observation (although limited in development) leads to the following theorem: Given P(x) = a n x n + a n-1 x n-1 +.. + a 1 x 1 + a 0, if P(x) = 0 has a rational root of the form a/b and a/b is in lowest terms, then a must be a divisor of a 0 and b must be a divisor of a n (L) Factoring Polynomials the Rational Root So what does this theorem mean? If we want to factor P(x) = 2x 3 5x 2 + 22x 10, then we first need to find a value a/b such that P(a/b) = 0 So the factors of the leading coefficient are {+1,+2} which are then the possible values for a The factors of the constant term, -10, are {+1,+2,+5,+10} which are then the possible values for b Thus the possible ratios a/b which we can test to find the factors are {+1,+½,+2,+5/2,+5,+10} As it then turns out, P(½) turns out to give P(x) = 0, meaning that (x ½) or (2x 1) is a factor of P(x) 33 34 (M) Factoring Polynomials the Rational Root - Examples Ex 1. To factor P(x) = 2x 3 9x 2 + 7x + 6, what values of x could you test according to the RRT Now factor P(x) Ex 2. To factor P(x) = 3x 3 7x 2 + 8x 2 what values of x could you test according to the RRT Now factor P(x) ex 3 Graph f(x) = 3x 3 + x 2-22x - 24 using intercepts, points, and end behaviour. Approximate turning points, max/min points, and intervals of increase and decrease. (N) Conclusion So, we now have some simple algebra tools that we can use to factor polynomials We use the rational root theorem and the remainder theorem We use these techniques in order to determine whether a chosen binomial (ax + b) is or is not a factor of our polynomial 35 36 6

Homework Homework: Ex. 7.3 (p. 429) # 26-56 evens, 62-65, 73-83 odds, 87, 93, 97, 99 37 7

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