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**Factoring Polynomials**

Section 0.4

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**Factor by finding greatest common**

factors (GCF) EXAMPLES Factor the expression by finding what each of the terms have in common. These are called greatest common factors and you should always look for them. 4x + 16 n2 – 3n r2 + 2r – 63 ANSWER ANSWER ANSWER 4(x + 4) n(n – 3) (r + 9)(r –7)

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**Factor trinomials of the form x2 + bx + c**

as a product of two binomials EXAMPLE Factor the expression. a. x2 – 9x + 20 b. x2 + 3x – 12 SOLUTION a. You want x2 – 9x + 20 = (x + m)(x + n) where mn = 20 and m + n = –9. ANSWER Notice that m = –4 and n = –5. So, x2 – 9x + 20 = (x – 4)(x – 5).

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**Factor trinomials of the form x2 + bx + c**

as a product of two binomials EXAMPLE b. You want x2 + 3x – 12 = (x + m)(x + n) where mn = – 12 and m + n = 3. ANSWER Notice that there are no factors m and n such that m + n = 3. So, x2 + 3x – 12 cannot be factored. We call that trinomial prime or irreducible.

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GUIDED PRACTICE Factor the expression. If the expression cannot be factored, say so. x2 – 3x – 18 n2 – 3n + 9 r2 + 2r – 63 ANSWER ANSWER ANSWER (x – 6)(x + 3) cannot be factored (r + 9)(r –7)

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**Factor with special patterns**

EXAMPLE Factor with special patterns Factor the expression. a. x2 – 49 = x2 – 72 Difference of squares = (x + 7)(x – 7) b. d d + 36 = d 2 + 2(d)(6) + 62 Perfect square trinomial = (d + 6)2 c. z2 – 26z + 169 = z2 – 2(z) (13) + 132 Perfect square trinomial = (z – 13)2

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GUIDED PRACTICE Factor the expression, notice special patterns. x2 – 9 ANSWER (x – 3)(x + 3) q2 – 100 ANSWER (q – 10)(q + 10) y2 + 16y + 64 ANSWER (y + 8)2

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**More factoring with special patterns**

EXAMPLE More factoring with special patterns Factor the expression. a. 9x2 – 64 = (3x)2 – 82 Difference of squares = (3x + 8)(3x – 8) b. 4y2 + 20y + 25 = (2y)2 + 2(2y)(5) + 52 Perfect square trinomial = (2y + 5)2 c w2 – 12w + 1 = (6w)2 – 2(6w)(1) + (1)2 Perfect square trinomial = (6w – 1)2

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GUIDED PRACTICE GUIDED PRACTICE Factor the expression, watch for special patterns. 16x2 – 1 ANSWER (4x + 1)(4x – 1) 9y2 + 12y + 4 ANSWER (3y + 2)2 4r2 – 28r + 49 ANSWER (2r – 7)2 25s2 – 80s + 64 ANSWER (5s – 8)2

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GUIDED PRACTICE GUIDED PRACTICE 49z2 + 4z + 9 ANSWER (7z + 3)2 36n2 – 9 ANSWER (6n – 3)(6n +3)

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**Standardized Test Practice**

EXAMPLE Standardized Test Practice SOLUTION x2 – 5x – 36 = 0 Write original equation. (x – 9)(x + 4) = 0 Factor. x – 9 = 0 or x + 4 = 0 Zero product property x = 9 or x = –4 Solve for x. ANSWER The correct answer is C.

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EXAMPLE Use a quadratic equation as a model Nature Preserve A town has a nature preserve with a rectangular field that measures 600 meters by 400 meters. The town wants to double the area of the field by adding land as shown. Write an equation that will represent the new field.

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**Use a quadratic equation as a model**

EXAMPLE Use a quadratic equation as a model SOLUTION 480,000 = 240, x + x2 Multiply using FOIL. 0 = x x – 240,000 Write in standard form.

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EXAMPLE Factor ax2 + bx + c where c > 0 Factor 5x2 – 17x + 6. SOLUTION You want 5x2 – 17x + 6 = (kx + m)(lx + n) where k and l are factors of 5 and m and n are factors of 6. You can assume that k and l are positive and k ≥ l. Because mn > 0, m and n have the same sign. So, m and n must both be negative because the coefficient of x, –17, is negative.

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EXAMPLE Factor ax2 + bx + c where c > 0 ANSWER The correct factorization is 5x2 –17x + 6 = (5x – 2)(x – 3).

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EXAMPLE Factor ax2 + bx + c where c < 0 Factor 3x2 + 20x – 7. SOLUTION You want 3x2 + 20x – 7 = (kx + m)(lx + n) where k and l are factors of 3 and m and n are factors of –7. Because mn < 0, m and n have opposite signs. ANSWER The correct factorization is 3x2 + 20x – 7 = (3x – 1)(x + 7).

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GUIDED PRACTICE GUIDED PRACTICE Factor the expression. If the expression cannot be factored, say so. 7x2 – 20x – 3 ANSWER (7x + 1)(x – 3) 5z2 + 16z + 3 ANSWER (5z + 1)(z + 3). 2w2 + w + 3 ANSWER cannot be factored

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GUIDED PRACTICE GUIDED PRACTICE Factor the expression. If the expression cannot be factored, say so. 3x2 + 5x – 12 ANSWER (3x – 4)(x + 3) 4u2 + 12u + 5 ANSWER (2u + 1)(2u + 5) 4x2 – 9x + 2 ANSWER (4x – 1)(x – 2)

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EXAMPLE Factor out monomials first Factor the expression. a. 5x2 – 45 = 5(x2 – 9) = 5(x + 3)(x – 3) b. 6q2 – 14q + 8 = 2(3q2 – 7q + 4) = 2(3q – 4)(q – 1) c. –5z2 + 20z = –5z(z – 4) d. 12p2 – 21p + 3 = 3(4p2 – 7p + 1)

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GUIDED PRACTICE GUIDED PRACTICE Factor the expression. 3s2 – 24 ANSWER 3(s2 – 8) 8t2 + 38t – 10 ANSWER 2(4t – 1) (t + 5) 6x2 + 24x + 15 ANSWER 3(2x2 + 8x + 5) 12x2 – 28x – 24 ANSWER 4(3x + 2)(x – 3) –16n2 + 12n ANSWER –4n(4n – 3)

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GUIDED PRACTICE GUIDED PRACTICE 6z2 + 33z + 36 ANSWER 3(2z + 3)(z + 4)

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