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Factoring Polynomials

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Title: Factoring Polynomials


1
6-4
Factoring Polynomials
Warm Up
Lesson Presentation
Lesson Quiz
Holt Algebra 2
2
Warm Up Factor each expression.
1. 3x 6y
3(x 2y)
2. a2 b2
(a b)(a b)
Find each product.
3. (x 1)(x 3)
x2 2x 3
4. (a 1)(a2 1)
a3 a2 a 1
3
Objectives
Use the Factor Theorem to determine factors of a
polynomial. Factor the sum and difference of two
cubes.
4
Recall that if a number is divided by any of its
factors, the remainder is 0. Likewise, if a
polynomial is divided by any of its factors, the
remainder is 0.
The Remainder Theorem states that if a polynomial
is divided by (x a), the remainder is the value
of the function at a. So, if (x a) is a factor
of P(x), then P(a) 0.
5
Example 1 Determining Whether a Linear Binomial
is a Factor
Determine whether the given binomial is a factor
of the polynomial P(x).
A. (x 1) (x2 3x 1)
B. (x 2) (3x4 6x3 5x 10)
Find P(1) by synthetic substitution.
Find P(2) by synthetic substitution.
1 3 1
1
1
4
3 6 0 5 10
2
1
5
4
6
10
0
0
3
0
5
0
0
P(1) 5
P(1) ? 0, so (x 1) is not a factor of P(x)
x2 3x 1.
P(2) 0, so (x 2) is a factor of P(x) 3x4
6x3 5x 10.
6
Check It Out! Example 1
Determine whether the given binomial is a factor
of the polynomial P(x).
b. (3x 6) (3x4 6x3 6x2 3x 30)
a. (x 2) (4x2 2x 5)
Find P(2) by synthetic substitution.
Divide the polynomial by 3, then find P(2) by
synthetic substitution.
4 2 5
2
8
20
1 2 2 1 10
2
4
25
10
2
10
4
0
1
0
5
2
0
P(2) 25
P(2) ? 0, so (x 2) is not a factor of P(x)
4x2 2x 5.
P(2) 0, so (3x 6) is a factor of P(x) 3x4
6x3 6x2 3x 30.
7
You are already familiar with methods for
factoring quadratic expressions. You can factor
polynomials of higher degrees using many of the
same methods you learned in Lesson 5-3.
8
Example 2 Factoring by Grouping
Factor x3 x2 25x 25.
(x3 x2) (25x 25)
Group terms.
Factor common monomials from each group.
x2(x 1) 25(x 1)
Factor out the common binomial (x 1).
(x 1)(x2 25)
Factor the difference of squares.
(x 1)(x 5)(x 5)
9
Example 2 Continued
Check Use the table feature of your calculator to
compare the original expression and the factored
form.
The table shows that the original function and
the factored form have the same function values. ?
10
Check It Out! Example 2a
Factor x3 2x2 9x 18.
(x3 2x2) (9x 18)
Group terms.
Factor common monomials from each group.
x2(x 2) 9(x 2)
Factor out the common binomial (x 2).
(x 2)(x2 9)
Factor the difference of squares.
(x 2)(x 3)(x 3)
11
Check It Out! Example 2a Continued
Check Use the table feature of your calculator to
compare the original expression and the factored
form.
The table shows that the original function and
the factored form have the same function values. ?
12
Check It Out! Example 2b
Factor 2x3 x2 8x 4.
(2x3 x2) (8x 4)
Group terms.
Factor common monomials from each group.
x2(2x 1) 4(2x 1)
Factor out the common binomial (2x 1).
(2x 1)(x2 4)
(2x 1)(x2 4)
13
Just as there is a special rule for factoring the
difference of two squares, there are special
rules for factoring the sum or difference of two
cubes.
14
Example 3A Factoring the Sum or Difference of
Two Cubes
Factor the expression.
4x4 108x
4x(x3 27)
Factor out the GCF, 4x.
4x(x3 33)
Rewrite as the sum of cubes.
Use the rule a3 b3 (a b) ? (a2 ab b2).
4x(x 3)(x2 x ? 3 32)
4x(x 3)(x2 3x 9)
15
Example 3B Factoring the Sum or Difference of
Two Cubes
Factor the expression.
125d3 8
Rewrite as the difference of cubes.
(5d)3 23
(5d 2)(5d)2 5d ? 2 22
Use the rule a3 b3 (a b) ? (a2 ab b2).
(5d 2)(25d2 10d 4)
16
Check It Out! Example 3a
Factor the expression.
8 z6
Rewrite as the difference of cubes.
(2)3 (z2)3
(2 z2)(2)2 2 ? z (z2)2
Use the rule a3 b3 (a b) ? (a2 ab b2).
(2 z2)(4 2z z4)
17
Check It Out! Example 3b
Factor the expression.
2x5 16x2
2x2(x3 8)
Factor out the GCF, 2x2.
Rewrite as the difference of cubes.
2x2(x3 23)
Use the rule a3 b3 (a b) ? (a2 ab b2).
2x2(x 2)(x2 x ? 2 22)
2x2(x 2)(x2 2x 4)
18
Example 4 Geometry Application
The volume of a plastic storage box is modeled by
the function V(x) x3 6x2 3x 10. Identify
the values of x for which V(x) 0, then use the
graph to factor V(x).
V(x) has three real zeros at x 5, x 2, and
x 1. If the model is accurate, the box will
have no volume if x 5, x 2, or x 1.
19
Example 4 Continued
One corresponding factor is (x 1).
Use synthetic division to factor the polynomial.
1 6 3 10
1
1
7
10
1
0
7
10
V(x) (x 1)(x2 7x 10)
Write V(x) as a product.
V(x) (x 1)(x 2)(x 5)
Factor the quadratic.
20
Check It Out! Example 4
The volume of a rectangular prism is modeled by
the function V(x) x3 8x2 19x 12, which is
graphed below. Identify the values of x for which
V(x) 0, then use the graph to factor V(x).
V(x) has three real zeros at x 1, x 3, and x
4. If the model is accurate, the box will have
no volume if x 1, x 3, or x 4.
21
Check It Out! Example 4 Continued
One corresponding factor is (x 1).
Use synthetic division to factor the polynomial.
1 8 19 12
1
1
7
12
1
0
7
12
V(x) (x 1)(x2 7x 12)
Write V(x) as a product.
V(x) (x 1)(x 3)(x 4)
Factor the quadratic.
22
Lesson Quiz
1. x 1 P(x) 3x2 2x 5
P(1) ? 0, so x 1 is not a factor of P(x).
2. x 2 P(x) x3 2x2 x 2
P(2) 0, so x 2 is a factor of P(x).
3. x3 3x2 9x 27
(x 3)(x 3)(x 3)
4. x3 3x2 28x 60
(x 6)(x 5)(x 2)
8(2p q)(4p2 2pq q2)
4. 64p3 8q3
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