18.3 Special Products of Binomials PDF

Summary

This document is about special products of binomials in algebra. It explains modeling special products using algebra tiles and provides examples of squaring binomials and multiplying conjugates.

Full Transcript

LESSON
18.3
18.3 Special Products of Binomials Special Products
Essential Question: How can you find special products of binomials? of Binomials
Resource
Locker
Common Core Math Standards
Explore Modeling Special Products
B. × The student is expected to:
Use algebra tiles to model the special products of binomials.
COMMON
CORE A-APR.A.1
Use algebra tiles to model (2x + 3). Then write the product in simplest form.
2

Understand that polynomials form a system
× × analogous to the integers, namely, they are closed
under the operations of … multiplication… Also
A-SSE.A.1, A-SSE.A.2

? Mathematical Practices
C. ×
COMMON
CORE MP.7 Using Structure

Language Objective
Explain to a partner what a perfect square trinomial is.
(2x + 3) =
2
? x +
2
? x+ ?.
4 12 9 Online Resources

 Use algebra tiles to model (2x - 3). Then write  Use algebra tiles to model (2x + 3)(2x - 3).
2
An extra example for each Explain section is
the product in simplest form. See tiles above. Then recount the tiles in the grid and write
the expression. See tiles above. available online.
© Houghton Mifflin Harcourt Publishing Company

× ×

Engage
? ?
Essential Question: How can you find special
products of binomials?
Use the special products rules for squaring a binomial
(2x - 3) =
2
? x -
2
? x+ ?. (2x + 3)(2x - 3) = ? x +
2
? x- ?. or for finding the product of a sum and a difference.
4 12 9 4 0 9
Preview: Lesson Performance Task

Module 18 677 Lesson 3 View the Engage section online. Discuss what
safety precautions one would need to keep in
Professional Development mind when designing a fireplace. Then preview
the Lesson Performance Task.
Math Background
Special products of binomials are predictable patterns that can be applied as rules
to save time and effort when multiplying binomials. They are also useful in a
variety of situations that students will encounter as they progress in math. For
example, the binomials (a + b) and (a − b) are called conjugates. Their product
is always a difference of squares, a2 − b2. One use of conjugates is to rewrite an
expression to eliminate a square root in the denominator, as follows:
______ 5 + √3 ―
5 + √3 5 + √3 ― ―
1
= ______
1
 ______ = ________ = ______
5 - √― 5 - √― ―
5 + √3 - ( √―
3)
22
2
3 3 5
2

Lesson 18.3 677
 Reflect

Explore 1. Discussion In Step A, which terms of the trinomial are perfect squares? What is the coefficient of x in the
product? How can you use the values of a and b in the expression (2x + 3) to produce the coefficient of
2

each term in the trinomial? How can you generalize these results to write a rule for the product (a + b) ?
2

Modeling Special Products See below.
2. Discussion In Step B, which terms of the trinomial are perfect squares? What is the coefficient of x in the
trinomial? How can you use the values of a and b in the expression (2x - 3) to produce the coefficient of
2

each term in the trinomial? How can you generalize these results to write a rule for the product (a - b) ?
2

See below.
Integrate Technology 3. Discussion In Step C, which terms of the product are perfect squares? What is the coefficient of x in
the product? How can you use the values of a and b in the expression (2x + 3)(2x - 3) to produce the
Students have the option of completing the algebra coefficient of each term in the product? How can you generalize these results to write a rule for the product
tiles activity either in the book or online. (a + b)(a- b)? 4x 2 and 9; 0; 4 = 2 2, 9 = 3 2, and 0 = 2(3) + 2(-3); (a - b)(a + b) = a 2 - b 2.

Multiplying (a + b)
2
Explain 1
In the Explore, you determined a formula for the square of a binomial sum, (a + b) = a 2 + 2ab + b 2. A trinomial of
2

Integrate Mathematical Practices the form a 2 + 2ab + b 2 is called a perfect-square trinomial. A perfect-square trinomial is a trinomial that is the result
Focus on Modeling of squaring a binomial.

MP.4 Remind students that when modeling Example 1 Multiply.
multiplication with algebra tiles, the product of a
(x + 4) 2  (3x + 2y)
2

yellow (positive) tile and a red (negative) tile is a red
tile, while the product of two yellow tiles or two red (a + b) 2 = a 2 + 2ab + b 2 (a + b) 2 = a 2 + 2ab + b 2
)( ) ( )
2

tiles is a yellow tile. (x + 4) 2 = x 2 + 2(x)(4) + 4 2 (3x + 2y) = (3x) + 2
2 2
( 3 x 2 y + 2 y
= x 2 + 8x + 16 = 9x + 12 xy +
2
4 y 2

Reflect
Explain 1 4. In the perfect square trinomial x 2 + bx + c, what is the relationship between b and c? Explain.

(_b2 ) ; (a + b) = a + 2ab + b , and in this case, a = 1, 2ab = b, and b = c
2
2
Multiplying (a + b)
2
c= 2 2 2 2

© Houghton Mifflin Harcourt Publishing Company
Your Turn

Multiply.

Questioning Strategies 5. (4 + x 2 ) 2 16 + 8x 2 + x 4 6. (-x + 3) 2 x 2 - 6x + 9

When squaring binomials, how many terms do you
expect in the answer? Explain. Three terms; using
the FOIL method, you will get four terms, but the 1. 4x 2 and 9; 12; 4 = 2 , 9 = 3 2, and 12 = 2(3) + 2(3) = 2(2)(3); (a + b) = a 2 + 2ab + b.
2 2 2

outer and inner products will be like terms that can 2. 4x 2 and 9; -12; 4 = 2 , 9 = 3 2, and -12 = 2(-3) + 2(-3) = -2(2)(3); (a - b) = a 2 - 2ab + b.
2 2 2

be combined, so the simplified result will have
three terms.
Why is the middle term of (a + b) equal to 2ab? If
2

you use the Distributive Property to multiply the
binomials, the result is a 2 + ab + ab + b 2 before
simplifying. Combining the two middle terms gives Module 18 678 Lesson 3

2ab.
Collaborative Learning
Peer-to-Peer Activity
Avoid Common Errors
Have students work in pairs. Instruct each student to write two binomial
When students see a square of a binomial such multiplication problems: a square of a binomial and a product of a sum and
as (3x + 2) , they sometimes square only the two
2
difference with the same terms. Have partners switch papers and find the products,
terms, losing the x-term of the trinomial. To avoid this showing their work. Then have them check each other’s results. Have students
error, have students rewrite the expression in the form repeat with additional problems.
of the special products rule for (a + b) :
2

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

678 Special Products of Binomials
 Multiplying (a - b)
2
Explain 2
2
In the Explore, you determined the square of a binomial difference, (a - b) = a 2 - 2ab + b 2. Because a 2 - 2ab + b 2
is the result of squaring the binomial (a - b), a 2 - 2ab + b 2 is also a perfect-square trinomial.
Explain 2
2
Example 2 Multiply. Multiplying (a − b)
(x - 5) 2  (6x - 1) 2

(a - b) 2 = a 2 - 2ab + b 2 (a - b) 2 = a 2 - 2ab + b 2 Questioning Strategies
( ) ( )( 1 ) + How is the product of (a − b) similar to and
2 2
(x - 5) 2 = x 2 - 2(x)(5) + 5 2 (6x - 1) 2 = 6 x -2 6 x 1
different from the product of (a + b) ? Both
2
= x 2 - 10x + 25 = 36 x 2 - 12 x + 1
products are trinomials. The first and last terms
Reflect are the same in both products, but the sign of the
middle term is negative for (a − b) and positive
2
7. Why is the last term of a perfect square trinomial always positive?
for (a + b).
2
Because it is either the product of two positive numbers or the product of two
Your Turn negative numbers. In either case, the product is positive.

Multiply.
8. (4x - 3y)
2
9. (3 - x 2) 2 Integrate Mathematical Practices
16x 2 - 24xy + 9y 2 9 - 6x 2 + x 4 Focus on Critical Thinking
MP.3 When finding the product of (a − b) , some
2
Explain 3 Multiplying (a + b) (a - b)
students might believe that the middle term and the
In the Explore, you determined the formula (a + b) (a - b) = a 2 - b 2. A binomial of the form a 2 - b 2 is called a
difference of two squares. last term will both be negative numbers. Remind
them that the last term comes from a number being
Example 3 Multiply.
squared, and thus will never be negative.
(x + 6)(x - 6)  (x 2
+ 2y)(x 2 - 2y)

(a + b)(a - b) = a 2 - b 2 (a + b)(a - b) = a 2 - b 2
Avoid Common Errors
( ) ( )
2 2
(x + 6)(x - 6) = x 2 - 6 2
© Houghton Mifflin Harcourt Publishing Company

(x 2 + 2y)(x 2 - 2y) = x2 - 2y Students may forget to square all factors of each term
= x 2 - 36
= 1 x
4
-
2 when squaring a binomial. Suggest that they circle
4 y
the coefficient and any exponents in each term so
Reflect that they do not overlook them as they apply the
10. Why does the product of a + b and a - b always include a minus sign? special product rule.
Because b and -b have opposite signs, their product is negative.
Your Turn

11. (7 + x)(7 - x)

49 - x 2 Explain 3
Multiplying (a + b)(a − b)

Module 18 679 Lesson 3 Questioning Strategies
What can you say about the sign of the last term in
Differentiate Instruction the product of a sum and a difference? Explain. The
Visual Cues sign of the last term is always negative because you
are multiplying a positive term and a negative term.
When students use the special product patterns, encourage them to (1) write the
general pattern, (2) list which terms are represented by a and b in the general In a product of the form (a + b)(a − b), how many
pattern, (3) substitute the terms into the pattern, and (4) simplify. terms do you expect in the answer? Explain. There
For example, to find (3x2 + 4) , they would write:
2
are only two terms because the product of the inner
terms and the product of the outer terms are
Find (a + b) = a2 + 2ab + b2 for a = 3x2 and b = 4.
2
opposites, so their sum is zero.
(3x2 + 4) = (3x2) + 2(3x2)(4) + (4)
2 2 2

= 9x4 + 24x2 + 16

Lesson 18.3 679
 Explain 4 Modeling with Special Products
Explain 4 Example 4 Write and simplify an expression to represent the situation.

Design A designer adds a border with a uniform width to a square rug. The original side length of the rug is
Modeling with Special Products (x - 5) feet. The side length of the entire rug including the original rug and the border is (x + 5) feet. What is
the area of the border? Evaluate the area of the border if x = 10 feet.

Questioning Strategies Analyze Information
Identify the important information.
Why is it helpful to draw a diagram when solving a The answer will be an expression that represents the area of the border.
real-world problem involving length, area, or List the important information:
volume? Labeling the dimensions in the diagram t
The rug is a square with a side length of x - 5 feet.
with the expressions that you know can help you t
The side length of the entire square area including the original rug and the border
x+ 5
see how to use those expressions to find the is feet.

solution.
Formulate a Plan
( ). The total area of the rug plus the border in square feet
2

The area of the rug in square feet is x- 5

( ). The area of the rug can be subtracted from the total area to find the area of the border.
2
Integrate Mathematical Practices is x+ 5
Focus on Technology
Solve
MP.5 When a real–world problem calls for
evaluating a polynomial for a particular value Find the total area: Find the area of the rug:

( )( 5 ) + ( x )( 5 ) + ( 5 )
2 2

of the variable, students can use a graphing calculator (x + 5) = 1 x + 2 x 2 2
5 (x - 5) 2 = 1 x 2 - 2
to check their calculations. = 1 x 2 + 10 x + 25 = 1 x 2 - 10 x + 25

Find the area of the border:
Area of border = total area – area of rug

Elaborate Area = 1 x 2 + 10 x + 25 - ( 1 x 2 - 10 x + 25 )

© Houghton Mifflin Harcourt Publishing Company
= 1 x + 10 x + 25 - 1 x + 10 x - 25
2 2

= ( ) (
1 x 2 - 1 x 2 + 10 x + 10 x + ) ( 25 - 25 )
Integrate Mathematical Practices = 0 x 2 + 20 x + 0

Focus on Patterns = 20 x
MP.8 Point out that when you use special product The area of the border is 0 x 2 + 20 x + 0 = 20x square feet.
patterns, a and b can be numbers, variables, or
variable expressions.

Module 18 680 Lesson 3

Language Support
Connect Vocabulary
Discuss with students the various ways that the word square is used in this lesson.
To square a number or expression is to raise it to a power of 2, or multiply it by
itself. A perfect square is a number that results from squaring a number. A binomial
raised to the second power, such as (x + 3) or (x − 3) , equals a trinomial whose
2 2

first and third terms are perfect squares. The trinomial as a whole is called a perfect
square trinomial. The product of a binomial and a similar binomial with the
opposite sign in the middle, such as (x + 2)(x − 2), is a difference of two squares,
x2 − 2 2 or x2 − 4.

680 Special Products of Binomials
 Justify and Evaluate
Suppose that x = 10. The rug is 5 feet by 5 feet, so its area is 25 square feet. The total area is
Summarize The Lesson
( 10 + 5 ) =
2
Complete the graphic organizer with students to
225 square feet, so the area of the border is 225 - 25 = 200 square feet,
summarize the rules for special products of binomials.
which is 20 (10) when x = 10. So the answer makes sense. Add a third column for students to provide examples
Because x is a length, x is positive, so -32x represents a negative number. Area cannot of each type of product.
Reflect
be negative. She probably subtracted the total area from the area of the rug instead of
the other way around.
12. Critique Reasoning Estelle solved a problem just like the example, except that the value of b in the two Special Products
expressions was 8. Her expression for the area of the border was –32x. How do you know that she made an
error? What do you think her error might have been? perfect square

Your Turn
(a + b) 2 trinomial

Write and simplify an expression.
a 2 + 2ab + b 2
perfect square
13. A square patio has a side length of (x - 3) feet. It is surrounded by a flower garden with a uniform width.
The side length of the entire square area including the patio and the flower garden is (x + 3) feet. Write an
expression for the area of the flower garden.
(a - b) 2 trinomial

Area of flower garden = total area - area of patio = x 2 + 6x + 9 - (x 2 - 6x + 9) = 12x a 2 − 2ab + b 2
difference of two
Elaborate 15. No; there is no way to rewrite a binomial squared as a difference of squares.
(a + b)(a − b) squares
14. How can you use the formula for the square of a binomial sum to write a formula for the square of a
a2 − b2
( )
2
binomial difference? (a - b)2 = a + (-b) = a 2 + 2a(-b) + (-b)2 = a 2 - 2ab + b 2
15. Can you use the formula for the square of a binomial sum to write a formula for a difference of squares?
See above.
16. Essential Question Check-In Use one of the special product rules to describe in words how to find the
coefficient of xy in the product (5x - 3y). Multiply the coefficient of x in the binomial and the
2

coefficient of y in the binomial. Then multiply the product by -2.
The coefficient of xy in the product is -2(5)(3) = -30.
Evaluate
Evaluate: Homework and Practice
© Houghton Mifflin Harcourt Publishing Company

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1. (x + 8) 2 x 2 + 16x + 64 2. (4x + 6y) (16x) 2 + 48xy + 36y 2
2 t
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and Skills
3. (6 + x 2) 2 36 + 12x 2 + x 4 4. (-x + 5) 2 x 2 - 10x + 25 Basic Explore N/A
(x + 11) x + 22x + 121 (8x + 9y) 64x + 144xy + 81y
2 2 2 2 2
5. 6. Example 1 Exercises 1–6, odd

7. (x - 3) 2 x 2 - 6x + 9 8. (5x - 2) 2 25x 2 - 20x + 4 Example 2 Exercises 7–12, even
Example 3 Exercises 13–18, odd
(6x - 7y) (36x 2) - 84xy + 49y 2 10. (5 - x 2)
2
25 - 10x 2 + x 4
2
9.
Example 4 Exercises 19–23
(5x - 4y) 25x 2 - 40xy + 16y 2 12. (7 - 2x 2)
2
49 - 28x 2 + 4x 4
2
11. H.O.T. Exercise 25
Average Explore N/A
Example 1 Exercises 1–6, even
Module 18 681 Lesson 3 Example 2 Exercises 7–12, odd
Example 3 Exercises 13–18, even
Example 4 Exercises 19–23

Exercise Depth of Knowledge (D.O.K.)
COMMON
CORE Mathematical Practices H.O.T. Exercises 25–26
Advanced Explore N/A
1–18 1 Recall of Information MP.5 Using Tools Example 1 Exercises 5–6
19–20 1 Recall of Information MP.4 Modeling Example 2 Exercises 10–12, 24
21 2 Skills/Concepts MP.4 Modeling Example 3 Exercises 16–18, 23
Example 4 Exercises 19–23
22–23 2 Skills/Concepts MP.5 Using Tools
H.O.T. Exercises 25–26
24 2 Skills/Concepts MP.3 Logic
Real World Problems
25–26 2 Skills/Concepts MP.3 Logic

Lesson 18.3 681
 13. (x + 4)(x - 4) x 2 - 16 14. (x 2 + 6y)(x 2 - 6y) x 4 - 36y 2
Cognitive Strategies
15. (9 + x)(9 - x) 81 - x 2 16. (2x + 5)(2x - 5) 4x 2 - 25
Remind students that if they forget the formulas for
special product patterns, they can always use the 17. (3x 2 + 8y)(3x 2 - 8y) 9x 4 - 64y 2 18. (7 + 3x)(7 - 3x) 49 - 9x 2

Distributive Property to find the product. Write and simplify an expression to represent the situation.

19. Design A square swimming pool is surrounded by a cement walkway with a
uniform width. The swimming pool has a side length of (x - 2) feet. The side length
Avoid Common Errors of the entire square area including the pool and the walkway is (x + 1) feet. Write
an expression for the area of the walkway. Then find the area of the cement walkway
When using the rules for special products, students when x = 7 feet. See below.
often forget to square the coefficients of terms in the 20. This week Leo worked (x + 4) hours at a pizzeria. He is paid (x - 4)
dollars per hour. Leo’s friend Frankie worked the same number of
binomial. Suggest that students first write the
hours, but he is paid (x - 2) dollars per hour. Write an expression for
coefficient and variable with the exponent applied the total amount paid to the two workers. Then find the total amount if
to each one, and then simplify. For example, to x = 12.

find (3y − 5x2) , they would write
2
Total amount paid = Leo’s pay + Frankie’s pay
2
3 2y2 − 2(3y)(5x2) + 5 2(x2) , then simplify to = (x + 4)(x - 4) + (x + 4)(x - 2)
9y2 − 30x2y + 25x4. = 2x 2 + 2x - 24
When x = 12, the total amount paid to the two workers
was $288.
Online Resources

t
Practice and Problem Solving (three forms)
21. Kyra is framing a square painting with side lengths of (x + 8) inches. The total area of
t
Reteach the painting and the frame has a side length of (2x - 6) inches. The material for the

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Reading Strategies frame will cost $0.08 per square inch. Write an expression for the area of the frame.
Then find the cost of the material for the frame if x = 16. See below.
t
Success for English Learners
22. Geometry Circle A has a radius of (x + 4) units. A larger circle, B, has a radius
Name ________________________________________ Date __________________ Class __________________
of (x + 5) units. Use the formula A = πr 2 to write an expression for the difference
LESSON
Special Products of Binomials
in the areas of the circles. Leave your answer in terms of π. Then use 3.14 for π to
18-3
Practice and Problem Solving: A/B approximate to the nearest whole number the difference in the areas when x = 10.

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Differece = Area of circle B - area of circle A = π(x + 5)(x + 5) - π(x + 4)(x + 4) = 2πx + 9π;
Find the product.
1. ( x  2)2 2. (m  4)2 3. (3  a )2

________________________ _______________________ ________________________ 91 square units.
4. (2 x  5)2 5. (8  y )2 6. (a  10)2

________________________ _______________________ ________________________

7. (b  3)2 8. (3 x  7)2 9. (6  3n )2

19. Area of walkway = Total area - area of pool = (x + 1) - (x - 2) = 6x - 3
________________________ _______________________ ________________________ 2 2
10. ( x  3)( x  3) 11. (8  y )(8  y ) 12. ( x  6)( x  6)

________________________ _______________________ ________________________ When x = 7 feet, the area of the walkway is 39 square feet.
13. (5 x  2)(5 x  2) 14. (4  2y )(4  2y ) 15. (10 x  7 y )(10 x  7 y )

21. Area of frame = Total Area - Area of painting = (2x - 6) - (x + 8) = 3x 2 - 40x - 28
________________________ _______________________ ________________________ 2 2
Solve.
16. Write a simplified expression for each of the following. When x = 16, the area of the frame is 100 square inches, so the cost is $8.
a. area of the large rectangle

_____________________________________

b. area of the small rectangle

_____________________________________

c. area of the shaded area

_____________________________________

17. The small rectangle is made larger by adding 2 units to the length and Module 18 682 Lesson 3
2 units to the width.
a. What is the new area of the smaller rectangle?

_____________________________________

b. What is the area of the new shaded area?

_____________________________________

Original content Copyright © by Houghton Mifflin Harcourt. Additions and changes to the original content are the responsibility of the instructor.
323

682 Special Products of Binomials
 23. A square has sides with lengths of (x - 1) units. A rectangle has a length of x units
and a width of (x - 2) units. Which statements about the situation are true? Select all
that apply. b, c, and d are true.
Auditory Cues
a. The area of the square is (x - 1) square units.
2
Have students learn “verbal rules” for special products
b. The area of the rectangle is x 2 - 2x square units. and repeat them aloud to help remember them. For
2 2
c. The area of the square is greater than the area of the rectangle. example, the square of a binomial (a + b) or (a − b) is:
d. The value of x must be greater than 2. t
first term squared
e. The difference in the areas is 2x - 1. t
plus (or minus) two times the product
24. Explain the Error Marco wrote the expression (2x - 7y) = 4x 2 - 49y 2. Explain
2
of the terms
and correct his error. See below.
t
plus last term squared.
H.O.T. Focus on Higher Order Thinking Have students create a similar verbal rule for
25. Critical Thinking Use the FOIL method to justify each special product rule.
(a + b)(a − b) = a2 − b2.
a. (a + b) 2 a 2 + ab + ab + b 2 = a 2 + 2ab + b 2
b. (a - b) a 2 - ab - ab - b 2 = a 2 - 2ab + b 2
2

c. (a + b)(a - b) a 2 + ab - ab - b 2 = a 2 - b 2
Avoid Common Errors
26. Communicate Mathematical Ideas Explain how you can use the special product Students may confuse the square of a
rules and the Distributive Property to write a general rule for (a - b). Then write
3
difference, (p − q)2, with the difference of two
the rule.
squares, p2 − q2. Remind them that the square of a
First write (a - b) as (a - b)(a - b)(a - b), then use the Distributive Property
3

to write the product.
binomial is always a trinomial. The product of two
(a - b)3 = a 3 - 3a 2b + 3ab 2 - b 3 binomials can be a binomial only if one term “drops
out” because like terms cancel, as it does when a sum
is multiplied by a difference.
24. Marco may have confused a difference of squares and the square of a
binomial difference. He wrote the difference of the squares of the terms
instead of square of a binomial difference. The correct product is
4x 2 - 28xy + 49y 2.
© Houghton Mifflin Harcourt Publishing Company

Module 18 683 Lesson 3

Lesson 18.3 683
 Lesson Performance Task
Journal
When building a square-shaped outdoor fireplace,
Have students write a journal entry describing how to the ground needs to be replaced with stone for an
additional two feet on each side. Write a polynomial
use special product patterns to find the square of a for the area that needs to be excavated to create an x
binomial and the product of a sum and a difference. by x fireplace.

Design your ideal space for sitting around a fire pit
and relaxing. Add furniture, flowerbeds, rock gardens,
and any other desired features.
Integrate Mathematical Practices Evaluate the polynomial for the size fireplace you are
Focus on Modeling including.

MP.4 Encourage students to draw and label a
diagram for the situation in the Lesson Performance The length and width of the area to be excavated are both 2 + x + 2 or x + 4 feet.
Task. Therefore, the area that needs to be excavated is x 2 + 8x + 16.
The plans for the outdoor space and excavated area will vary with the individual,
but the excavated area will be A(x) evaluated for x, where x is the length/width of
x+4 the fire pit.

2
x

2 x 2 x+4

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Questioning Strategies
What type of special product represents the area of
the outdoor fireplace? It is a perfect-square
trinomial, the result of squaring a binomial.

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Module 18 684 Lesson 3

Extension Activity
Lesson Performance Task Have students investigate how Pascal’s triangle, which 1
was developed by 17 th–century mathematician Blaise
Scoring Rubric 1 2 1
Pascal, is related to products of binomials. Students
Points Criteria should find that the coefficients of a binomial raised 1 3 3 1
2 Student correctly solves the problem and explains to the nth power match the nth row in the triangle. 1 4 6 4 1
his/her reasoning.
For example, the fourth row of the triangle corresponds
1 5 10 10 5 1
1 Student shows good understanding of the to (a + b) = 1a4 + 4a3b + 6a2b2 + 4ab3 + 1b4.
4

problem but does not fully solve or explain his/
her reasoning.
0 Student does not demonstrate understanding of
the problem.

684 Special Products of Binomials