Express Math. Simplifying Expressions Using Distributive Properties. Learning Goals. Key Terms. Essential Ideas

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Express Math Simplifying Expressions Using Distributive Properties Learning Goals In this lesson, you will: Write and use the distributive properties. Use distributive properties to simplify expressions. Key Terms Distributive Property of Multiplication over Addition Distributive Property of Multiplication over Subtraction Distributive Property of Division over Addition Distributive Property of Division over Subtraction 0 Carnegie Learning Essential Ideas The Distributive Property provides ways to write numerical and algebraic expressions in equivalent forms. When the Distributive Property is applied to numerical expressions only, it is a helpful tool in computing math mentally. The area of a rectangle model is useful in demonstrating the Distributive Property. There are four versions of the distributive property: Distributive Property of Multiplication over Addition: If a, b and c are any real numbers, then a (b c) a b a c. Distributive Property of Multiplication over Subtraction: If a, b and c are any real numbers, then a (b c) a b a c. Distributive Property of Division over Addition: If a, b, and c are any real numbers and c 0, then a b c c a b c. Distributive Property of Division over Subtraction: If a, b and c are any real numbers and c 0, then a b c c a b c. Common Core State Standards for Mathematics 7.NS The Number System Apply and extend previous understandings of operations with fractions to add, subtract, multiply, and divide rational numbers. 3. Solve real-world and mathematical problems involving the four operations with rational numbers. 7.EE Expressions and Equations Use properties of operations to generate equivalent expressions.. Apply properties of operations as strategies to add, subtract, factor, and expand linear expressions with rational coefficients.. Understand that rewriting an expression in different forms in a problem context can shed light on the problem and how the quantities in it are related. 6. Simplifying Expressions Using Distributive Properties 303A

Express Math Simplifying Expressions Using Distributive Properties Learning Goals In this lesson, you will: Write and use the distributive properties. Use distributive properties to simplify expressions. Key Terms Distributive Property of Multiplication over Addition Distributive Property of Multiplication over Subtraction Distributive Property of Division over Addition Distributive Property of Division over Subtraction It once started out with camping out the night before the sale. Then, it evolved to handing out wrist bands to prevent camping out. Now, it s all about the Internet. What do these three activities have in common? For concerts, movie premieres, and highly-anticipated sporting events, the distribution and sale of tickets have changed with computer technology. Generally, hopeful ticket buyers log into a Web site and hope to get a chance to buy tickets. What are other ways to distribute tickets? What are other things that routinely get distributed to people? 0 Carnegie Learning 6. Simplifying Expressions Using Distributive Properties 303

Problem This problem addresses all aspects of the distributive property. Students explore the distributive property by calculating the product of two numbers in two ways. They will analyze two models, a method for computing mental math and the area of rectangles diagram, and they connect and use both models. The Distributive Properties of Multiplication over Addition, Multiplication over Subtraction, Division over Addition, and Division over Subtraction are introduced. Students will simplify algebraic expressions using both the area model and symbolic representations. They then reverse the process of the Distributive Property of Multiplication over Addition and Subtraction, and factor numerical and algebraic expressions. Problem Fastest Math in the Wild West Dominique and Sarah are checking each other s math homework. Sarah tells Dominique that she has a quick and easy way to multiply a one-digit number by any other number in her head. Dominique decides to test Sarah by asking her to multiply 7 by 30.. Calculate the product 7 3 30. 30 3 7 60 Sarah is able to correctly multiply 7 by 30 in her head. She explains her method to Dominique. Sarah 30 3 7 First, break 30 into the sum of 00 and 30. Then, multiply 7 x 00 to get a product of 400 and 7 x 30 to get a product of 0. Finally, add 400 and 0 together to get 60.. Write an expression that shows the mathematical steps Sarah performed to calculate the product. 7(00) 7(30) Dominique makes the connection between Sarah s quick mental calculation and calculating the area of a rectangle. She draws the models shown to represent Sarah s thinking in a different way. Grouping Have students complete Questions through 3 with a partner. Then share the responses as a class. Questions and Are you able to calculate the product using mental math? If so, explain your process. Why is the area model appropriate for this calculation? Dominique Calculating 30 x 7 is the same as determining the area of a rectangle by multiplying the length by the width. But I can also divide the rectangle into two smaller rectangles and calculate the area of each rectangle. I can then add the two areas to get the total. 400 + 0 = 60 Why was 30 represented as 00 30 rather than another sum? What do the numbers in the boxes represent? Explain the area model in your own words. How are the area model and the mental math model similar? 7 7 30 00 30 400 0 0 Carnegie Learning 304 Chapter 6 Numerical and Algebraic Expressions and Equations

0 Carnegie Learning Questions 3 Why did you choose the particular sum that you did to represent the two- or threedigit number? Where are the values from your use of Sarah s method represented in your area model? Explain your use of parentheses when you used Sarah s method. Grouping Ask a student to read the information following Question 3 aloud. Discuss the information as a class. Discuss Phase, Definitions Why do you think it is called the Distributive Property of Multiplication over Addition? Use one of the items from Question 3 to demonstrate the substitution of values for a, b and c in the formal definition. Use 4(499) to demonstrate using the Distributive Property of Multiplication over Subtraction. Use 3 to demonstrate using the Distributive Property of Division over Addition. 3. First, use Dominique s method and sketch a model for each. Then, write an expression that shows Sarah s method and calculate. a. 9(48) b. 6(73) c. 4(460) 40 8 9 360 7 9(40 8) 9(40) 9(8) 360 7 43 70 3 6 40 8 6(70 3) 6(70) 6(3) 40 8 438 400 60 4 600 40 4(400 60) 4(400) 4(60) 600 40 840 Sarah s and Dominique s methods are both examples of the Distributive Property of Multiplication over Addition, which states that if a, b, and c are any real numbers, then a? ( b c) a? b a? c. Including the Distributive Property of Multiplication over Addition, there are a total of four different forms of the Distributive Property. Another Distributive Property is the Distributive Property of Multiplication over Subtraction, which states that if a, b, and c are any real numbers, then a? ( b c) a? b a? c. can draw at least two different models to determine ). Use 9 to demonstrate using the Distributive Property of Division over Subtraction. Explain when it may more appropriate to use subtraction rather than addition. 6. Simplifying Expressions Using Distributive Properties 30

Grouping Have students complete Questions 4 and with a partner. Then share the responses as a class. Questions 4 and How are these problems in Question 4 different from the previous problems? Why can t you simplify your algebraic expressions in Question 4 by adding the areas? How did you determine the signs of each term? Is the process any different if there are more than two terms in the parentheses? Explain the distributive process for the division problems. The Distributive Property also holds true for division over addition and division over subtraction as well. The Distributive Property of Division over Addition states that if a, b, and c are real numbers and c fi 0, then a c b c a b c. The Distributive Property of Division over Subtraction states that if a, b, and c are real numbers and c fi 0, then a c b c a b c. 4. Draw a model for each expression, and then simplify. a. 6(x 9) b. 7(b ) x 9 b 6 6x 4 7 4b 3 6x 4 4b 3 c. (4a ) d. x 4a x 8a 8a x 3 x 3. Use one of the Distributive Properties to rewrite each expression in an equivalent form. a. 3y(4y ) b. ( x 3) y 6y x 36 i iding by is the same as multiplying by what number Misconceptions Be sure that students do not over generalize the Distributive Property of Division over Addition or Subtraction. The numerator can be split as a sum for ease in calculations; but the denominator cannot be split as a sum. For example: a c b c a + b c For example: c a b fi c a c b c. 4a(3b ) d. 7y(y 3x 9) e. ab 0a 6m 3m 6 4y xy 63y A common error is that students will distribute to the first term in the parentheses, but forget to distribute to the second term. Use of the area model helps eliminate this error by having students fill in a rectangle for each term. f. 4x x 0 Carnegie Learning 306 Chapter 6 Numerical and Algebraic Expressions and Equations

0 Carnegie Learning Problem Students simplify five expressions using distributive properties. They will then evaluate two expressions using distributive properties. Grouping Have students complete Questions and with a partner. Then share the responses as a class. Question How can a distributive property be used to simplify this expression? What is the first step? What is the second step? Are there any like terms? What can be combined? Problem Simplifying and Evaluating. Simplify each expression. Show your work. a. 6(3x (4y)) 6(3x (4y)) (6)(3x) (6)(4y) b. 4(3x 8) 34 c. 8x 4y 4(3x 8) 34 (4)(3x) (4)(8) (34) 7. 6.4x 0.8 7. 6.4x 0.8 7. x 3 (34) x () 0.8 6.4x 0.8 9 (8x) d. ( )( 3 4 ) ( )( 4 ) ( )( 3 4 ) ( )( 4 ) ( )( 3 4 ( 4 ) ) e. ( 7 ) y ( 7 ) y 7 y 3 y ( ) () 6. Simplifying Expressions Using Distributive Properties 307

Question Did you use any of the distributive properties to simplify this expression? Which one(s)? Is the answer in the simplest form? How do you know?. Evaluate each expression for the given value. Then, use properties to simplify the original expression. Finally, evaluate the simplified expression. a. x (3x 7) for x 3 x(3x 7) ( 3 ) ( 3 ( 3 ) 7 ) x(3x 7) 6x 4x ( 3 )( ( 3 3 ) 7 ) 0 ( 7) 3 ( 0 4 3 ) ( 40 ) 6 ( 3 ) 4 ( 3 ) ( 6 )( 3 )( 3 ) 4 ( 3 ) 0 3 ( 70 3 ) 0 3 40 b. 4.x 7 for x.6 4.x 7 4.(.6) 7.9 7.708. 4.x 7 4.x 7 3x () 3x 3(.6) (). c. Which form simplified or not simplified did you prefer to evaluate? Why? Answers will vary. Be prepared to share your solutions and methods. 0 Carnegie Learning 308 Chapter 6 Numerical and Algebraic Expressions and Equations

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