Holt Algebra 1 7-7 Multiplying Polynomials 7-7 Multiplying Polynomials Holt Algebra 1 Warm Up Warm...

transcript

Holt Algebra 1

7-7 Multiplying Polynomials7-7 Multiplying Polynomials

Holt Algebra 1

Warm UpWarm Up

Lesson PresentationLesson Presentation

Lesson QuizLesson Quiz

Holt Algebra 1

7-7 Multiplying Polynomials

Warm UpEvaluate.

3. 102

Simplify.

4. 23 24

6. (53)2

5. y5 y4

56 7. (x2)4

8. –4(x – 7) –4x + 28

Holt Algebra 1

Multiply polynomials.

Objective

Holt Algebra 1

To multiply monomials and polynomials, you will use some of the properties of exponents that you learned earlier in this chapter.

Holt Algebra 1

Multiply.

Example 1: Multiplying Monomials

A. (6y3)(3y5)

(6y3)(3y5)

Group factors with like bases together.

B. (3mn2) (9m2n)

(3mn2)(9m2n)

27m3n3

Multiply.

(6 3)(y3 y5)

(3 9)(m m2)(n2 n)

Holt Algebra 1

Multiply.

Example 1C: Multiplying Monomials

2 2 2112

4s t st st

4 53s t

Multiply.

22 2112

4ts tt s s

2 2112

4t s ts ts

Holt Algebra 1

When multiplying powers with the same base, keep the base and add the exponents.

x2 x3 = x2+3 = x5

Remember!

Holt Algebra 1

Check It Out! Example 1

Multiply.

a. (3x3)(6x2)

(3x3)(6x2)

(3 6)(x3 x2)

Multiply.

b. (2r2t)(5t3)

(2r2t)(5t3)

(2 5)(r2)(t3 t)

10r2t4

Holt Algebra 1

Multiply.

4 52 2112

3x zy zx y

3x y x z y z

2 4 53

3 22 4 5112 z

3zx x y y

7554x y z

Holt Algebra 1

To multiply a polynomial by a monomial, use the Distributive Property.

Holt Algebra 1

Multiply.

Example 2A: Multiplying a Polynomial by a Monomial

4(3x2 + 4x – 8)

(4)3x2 +(4)4x – (4)8

12x2 + 16x – 32

Distribute 4.

Multiply.

Holt Algebra 1

6pq(2p – q)

(6pq)(2p – q)

Multiply.

Example 2B: Multiplying a Polynomial by a Monomial

(6pq)2p + (6pq)(–q)

(6 2)(p p)(q) + (–1)(6)(p)(q q)

12p2q – 6pq2

Distribute 6pq.

Group like bases together.

Multiply.

Holt Algebra 1

Multiply.

Example 2C: Multiplying a Polynomial by a Monomial

Multiply.

2x y xy x y8 2 2

x y 22 612

xyyx 8 2

x y x y

28xy x y 22

x2 • x

• 62

y • y x2 • x2 y • y2• 8

3x3y2 + 4x4y3

Distribute .21x y

Holt Algebra 1

Multiply.

a. 2(4x2 + x + 3)

2(4x2 + x + 3)

2(4x2) + 2(x) + 2(3)

8x2 + 2x + 6

Distribute 2.

Multiply.

Holt Algebra 1

Multiply.

b. 3ab(5a2 + b)

3ab(5a2 + b)

(3ab)(5a2) + (3ab)(b)

(3 5)(a a2)(b) + (3)(a)(b b)

15a3b + 3ab2

Distribute 3ab.

Multiply.

Holt Algebra 1

Multiply.

c. 5r2s2(r – 3s)

5r2s2(r – 3s)

(5r2s2)(r) – (5r2s2)(3s)

(5)(r2 r)(s2) – (5 3)(r2)(s2 s)

5r3s2 – 15r2s3

Distribute 5r2s2.

Multiply.

Holt Algebra 1

To multiply a binomial by a binomial, you can apply the Distributive Property more than once:

(x + 3)(x + 2) = x(x + 2) + 3(x + 2) Distribute x and 3.

Distribute x and 3 again.

Multiply.

Combine like terms.

= x(x + 2) + 3(x + 2)

= x(x) + x(2) + 3(x) + 3(2)

= x2 + 2x + 3x + 6

= x2 + 5x + 6

Holt Algebra 1

Another method for multiplying binomials is called the FOIL method.

4. Multiply the Last terms. (x + 3)(x + 2) 3 2 = 6

3. Multiply the Inner terms. (x + 3)(x + 2) 3 x = 3x

2. Multiply the Outer terms. (x + 3)(x + 2) x 2 = 2x

(x + 3)(x + 2) = x2 + 2x + 3x + 6 = x2 + 5x + 6

F O I L

1. Multiply the First terms. (x + 3)(x + 2) x x = x2

Holt Algebra 1

Multiply.

Example 3A: Multiplying Binomials

(s + 4)(s – 2)

s(s – 2) + 4(s – 2)

s(s) + s(–2) + 4(s) + 4(–2)

s2 – 2s + 4s – 8

s2 + 2s – 8

Distribute s and 4.

Distribute s and 4 again.

Multiply.

Combine like terms.

Holt Algebra 1

Multiply.

Example 3B: Multiplying Binomials

(x – 4)2

(x – 4)(x – 4)

(x x) + (x (–4)) + (–4 x) + (–4 (–4))

x2 – 4x – 4x + 8

x2 – 8x + 8

Write as a product of two binomials.

Use the FOIL method.

Multiply.

Combine like terms.

Holt Algebra 1

Example 3C: Multiplying Binomials

Multiply.

(8m2 – n)(m2 – 3n)

8m2(m2) + 8m2(–3n) – n(m2) – n(–3n)

8m4 – 24m2n – m2n + 3n2

8m4 – 25m2n + 3n2

Multiply.

Combine like terms.

Holt Algebra 1

In the expression (x + 5)2, the base is (x + 5). (x + 5)2 = (x + 5)(x + 5)

Helpful Hint

Holt Algebra 1

Check It Out! Example 3a

Multiply.

(a + 3)(a – 4)

a(a – 4)+3(a – 4)

a(a) + a(–4) + 3(a) + 3(–4)

a2 – a – 12

a2 – 4a + 3a – 12

Distribute a and 3.

Distribute a and 3 again.

Multiply.

Combine like terms.

Holt Algebra 1

Check It Out! Example 3b

Multiply.

(x – 3)2

(x – 3)(x – 3)

(x x) + (x(–3)) + (–3 x)+ (–3)(–3) ●

x2 – 3x – 3x + 9

x2 – 6x + 9

Write as a product of two binomials.

Multiply.

Combine like terms.

Holt Algebra 1

Check It Out! Example 3c

Multiply.

(2a – b2)(a + 4b2)

2a(a) + 2a(4b2) – b2(a) + (–b2)(4b2)

2a2 + 8ab2 – ab2 – 4b4

2a2 + 7ab2 – 4b4

Multiply.

Combine like terms.

Holt Algebra 1

To multiply polynomials with more than two terms, you can use the Distributive Property several times. Multiply (5x + 3) by (2x2 + 10x – 6):

(5x + 3)(2x2 + 10x – 6) = 5x(2x2 + 10x – 6) + 3(2x2 + 10x – 6)

= 5x(2x2 + 10x – 6) + 3(2x2 + 10x – 6)

= 5x(2x2) + 5x(10x) + 5x(–6) + 3(2x2) + 3(10x) + 3(–6)

= 10x3 + 50x2 – 30x + 6x2 + 30x – 18

= 10x3 + 56x2 – 18

Holt Algebra 1

You can also use a rectangle model to multiply polynomials with more than two terms. This is similar to finding the area of a rectangle with length (2x2 + 10x – 6) and width (5x + 3):

2x2 +10x –6

10x3 50x2 –30x

30x6x2 –18

Write the product of the monomials in each row and column:

To find the product, add all of the terms inside the rectangle by combining like terms and simplifying if necessary. 10x3 + 6x2 + 50x2 + 30x – 30x – 18

10x3 + 56x2 – 18

Holt Algebra 1

Another method that can be used to multiply polynomials with more than two terms is the vertical method. This is similar to methods used to multiply whole numbers.

2x2 + 10x – 6

5x + 36x2 + 30x – 18

+ 10x3 + 50x2 – 30x 10x3 + 56x2 + 0x – 18

10x3 + 56x2 + – 18

Multiply each term in the top polynomial by 3.

Multiply each term in the top polynomial by 5x, and align like terms.

Combine like terms by adding vertically.

Simplify.

Holt Algebra 1

Multiply.

Example 4A: Multiplying Polynomials

(x – 5)(x2 + 4x – 6)

(x – 5 )(x2 + 4x – 6)

x(x2 + 4x – 6) – 5(x2 + 4x – 6)

x(x2) + x(4x) + x(–6) – 5(x2) – 5(4x) – 5(–6)

x3 + 4x2 – 5x2 – 6x – 20x + 30

x3 – x2 – 26x + 30

Distribute x and –5.

Distribute x and −5 again.

Simplify.

Combine like terms.

Holt Algebra 1

Multiply.

Example 4B: Multiplying Polynomials

(2x – 5)(–4x2 – 10x + 3)

–4x2 – 10x + 32x – 5x

20x2 + 50x – 15+ –8x3 – 20x2 + 6x

–8x3 + 56x – 15

Multiply each term in the top polynomial by –5.

Multiply each term in the top polynomial by 2x, and align like terms.

Holt Algebra 1

Multiply.

Example 4C: Multiplying Polynomials

(x + 3)3

[(x + 3)(x + 3)](x + 3)

[x(x+3) + 3(x+3)](x + 3)

(x2 + 3x + 3x + 9)(x + 3)

(x2 + 6x + 9)(x + 3)

Write as the product of three binomials.

Use the FOIL method on the first two factors.

Multiply.

Combine like terms.

Holt Algebra 1

Example 4C: Multiplying Polynomials

Multiply.

(x + 3)3

x3 + 6x2 + 9x + 3x2 + 18x + 27

x3 + 9x2 + 27x + 27

x(x2) + x(6x) + x(9) + 3(x2) + 3(6x) + 3(9)

x(x2 + 6x + 9) + 3(x2 + 6x + 9)

Use the Commutative Property of Multiplication.

Distribute the x and 3.

Distribute the x and 3 again.

(x + 3)(x2 + 6x + 9)

Combine like terms.

Holt Algebra 1

Example 4D: Multiplying Polynomials

Multiply.(3x + 1)(x3 – 4x2 – 7)

x3 4x2 –7

3x4 12x3 –21x

4x2x3 –7

3x4 + 12x3 + x3 + 4x2 – 21x – 7

Write the product of the monomials in each row and column.

Add all terms inside the rectangle.

3x4 + 13x3 + 4x2 – 21x – 7 Combine like terms.

Holt Algebra 1

A polynomial with m terms multiplied by a polynomial with n terms has a product that, before simplifying has mn terms. In Example 4A, there are 2 3, or 6 terms before simplifying.

Helpful Hint

Holt Algebra 1

Check It Out! Example 4a

Multiply.

(x + 3)(x2 – 4x + 6)

(x + 3 )(x2 – 4x + 6)

x(x2 – 4x + 6) + 3(x2 – 4x + 6)

Distribute x and 3.

Distribute x and 3 again.

x(x2) + x(–4x) + x(6) +3(x2) +3(–4x) +3(6)

x3 – 4x2 + 3x2 +6x – 12x + 18

x3 – x2 – 6x + 18

Simplify.

Combine like terms.

Holt Algebra 1

Check It Out! Example 4b

Multiply.

(3x + 2)(x2 – 2x + 5)

x2 – 2x + 5 3x + 2

Multiply each term in the top polynomial by 2.

Multiply each term in the top polynomial by 3x, and align like terms.2x2 – 4x + 10

+ 3x3 – 6x2 + 15x3x3 – 4x2 + 11x + 10

Holt Algebra 1

Example 5: ApplicationThe width of a rectangular prism is 3 feet less than the height, and the length of the prism is 4 feet more than the height.

a. Write a polynomial that represents the area of the base of the prism.

Write the formula for the area of a rectangle.

Substitute h – 3 for w and h + 4 for l.

A = l w

A = (h + 4)(h – 3)

Multiply.A = h2 + 4h – 3h – 12

Combine like terms.A = h2 + h – 12

The area is represented by h2 + h – 12.

Holt Algebra 1

Example 5: ApplicationThe width of a rectangular prism is 3 feet less than the height, and the length of the prism is 4 feet more than the height.

b. Find the area of the base when the height is 5 ft.

A = h2 + h – 12

A = 52 + 5 – 12

A = 25 + 5 – 12

A = 18

Write the formula for the area the base of the prism.

Substitute 5 for h.

Simplify.

Combine terms.

The area is 18 square feet.

Holt Algebra 1

The length of a rectangle is 4 meters shorter than its width.

a. Write a polynomial that represents the area of the rectangle.

Write the formula for the area of a rectangle.

Substitute x – 4 for l and x for w.

A = l w

A = x(x – 4)

Multiply.A = x2 – 4x

The area is represented by x2 – 4x.

Holt Algebra 1

The length of a rectangle is 4 meters shorter than its width.

b. Find the area of a rectangle when the width is 6 meters. A = x2 – 4x

A = x2 – 4x

A = 36 – 24

A = 12

Write the formula for the area of a rectangle whose length is 4 meters shorter than width .

Substitute 6 for x.

Simplify.

Combine terms.

The area is 12 square meters.

A = 62 – 4 6

Holt Algebra 1

Lesson Quiz: Part I

Multiply.

1. (6s2t2)(3st)

2. 4xy2(x + y)

3. (x + 2)(x – 8)

4. (2x – 7)(x2 + 3x – 4)

5. 6mn(m2 + 10mn – 2)

6. (2x – 5y)(3x + y)

4x2y2 + 4xy3

18s3t3

x2 – 6x – 16

2x3 – x2 – 29x + 28

6m3n + 60m2n2 – 12mn

6x2 – 13xy – 5y2

Holt Algebra 1

Lesson Quiz: Part II

7. A triangle has a base that is 4cm longer than its height.a. Write a polynomial that represents the area

of the triangle.

b. Find the area when the height is 8 cm.

48 cm2

h2 + 2h

Holt Algebra 1 7-7 Multiplying Polynomials 7-7 Multiplying Polynomials Holt Algebra 1 Warm Up Warm...

Documents