Jim Rahn www.jamesrahn.com James.rahn@verizon.net Visualizing Multiplication of Binomials and Factoring with Algebra Tiles Jim Rahn www.jamesrahn.com James.rahn@verizon.net.

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Jim Rahn www.jamesrahn.com James.rahn@verizon.net Visualizing Multiplication of Binomials and Factoring with Algebra Tiles Jim Rahn www.jamesrahn.com James.rahn@verizon.net

Multiplication Using the Area Model

Write the dimensions of both sections and find the area of each. Draw a rectangle that measures 3 by 8 using the grid at the top of the page. 9 3 3 15 3 5 Complete the following statement: What is the area of the rectangle? Separate the rectangle into two parts by drawing a vertical line so that one rectangle has an area of 9. Left Rectangle Right Rectangle Whole Rectangle

Write the dimensions of both sections and find the area of each. Draw a rectangle that measures 5 by 9 using the grid at the top of the page. 5 15 30 5 Complete the following statement: 3 6 What is the area of the rectangle? Separate the rectangle into two parts by drawing a vertical line so that one part is 5 by 3 Left Rectangle Right Rectangle Whole Rectangle

Draw a rectangle that measures 6 by 10 using the grid at the top of the page. 24 36 6 Complete the following statement: What is the area of the rectangle? 4 6 Separate the rectangle into two parts to illustrate 6 x 4 and 6 x 6. Left Rectangle Right Rectangle Whole Rectangle

Use the partial rectangle at the bottom of the page to draw a rectangle that is 12 x 15. Left Rectangle Right Rectangle Whole Rectangle Complete the following statement: What is the area of the rectangle? 15 Separate the rectangle into two parts to illustrate 12 x 4 and 12 x 11 12 11 4

Use the partial rectangle at the bottom of the page to draw a rectangle that is 13 x 18. 10 8 10 3 10 3 3 8 10 10 10 8 100 + 80+30+24 234 Separate the 18 side into two parts 10 and 8 using a vertical line. 18 Study your picture and complete the statement at the top of this page. 10 8 Separate the 13 side into two parts 10 and 3 by using a horizontal line. 10 13 3

Multiplying with Variables

To complete 2(x+1) show two groups of (x + 1) To complete 2(x+1) show two groups of (x + 1). Form a rectangle with the pieces on the table. How long is your rectangle? How wide is your rectangle? Notice how the length and width of the rectangle are part of 2(x+1). What is the algebraic name for the inside of your rectangle?

To complete show three groups of . Form a rectangle with the pieces on the table. How long is your rectangle? How wide is your rectangle? What is the algebraic name for the inside of your rectangle?

To complete what should you show on the table? What is this equal to?

To complete what should you show on the table? What is this equal to?

Multiplying Binomials

Use the multiplication rectangle to make a rectangle whose dimensions are x by 2x+ 1. Place an x tile on the left side and tiles that represent 2x + 1 across the top as illustrated at the right. Fill in the rectangle to show it’s area. Draw a picture of your rectangle at the right. What is the algebraic name for the inside of your rectangle?

Use the multiplication rectangle to multiply . Fill in the area of the rectangle. Draw a picture of your rectangle. What is the algebraic name for the inside of your rectangle?

Use the multiplication rectangle to multiply . Fill in the rectangle. Draw a picture of your rectangle. What is the algebraic name for the inside of your rectangle?

Use the multiplication rectangle to multiply . Fill in the rectangle. Draw a picture of your rectangle. What is the algebraic name for the inside of your rectangle?

Multiply

Study the picture of the last few problems Study the picture of the last few problems. Is there a way you can predict how many x rectangles will be in your final rectangle? Can you predict their location? Can you predict the number of blue unit squares that will be in your final rectangle? Try to predict what the rectangle will look like for . Draw the picture without using the tiles. Write the algebraic expression for the rectangle.

Draw the picture for the multiplication of . Write the algebraic expression for the rectangle.

Recall that each of the following is a representation for zero Show zero using 4 rectangles. Show zero using 6 small squares

Use the multiplication rectangle to multiply (x + −1)(x + 2) . Once you have set up the dimensions fill in the rectangle. Watch the colors of the tiles. This problem involves a negative sign. Draw a picture of your rectangle. Can you simplify the rectangle by using zero pairs? What is the algebraic name for the inside of your rectangle?

Use the multiplication rectangle to multiply (x + 1)(2x + -3) . Once you have set up the dimensions fill in the rectangle. Watch the colors of the tiles. This problem involves a negative sign. Draw a picture of your rectangle. Can you simplify the rectangle by using zero pairs? What is the algebraic name for the inside of your rectangle?

Use the multiplication rectangle to multiply (x + −1)(2x + −1) .

Study the picture from the last few problems. Is there a way you can predict how many x rectangles will be in your final rectangle? Can you predict their location? Can you predict the number of blue unit squares that will be in your final rectangle? Try to predict what the rectangle will look like for (2x + −3)(x + 4) . Draw the picture without using the tiles. Write the algebraic expression for the rectangle.

Draw the picture for the multiplication of (3x + −1)(x + 2) . Write the algebraic expression for the rectangle.

Extending the Algebra Tile Model to an Rectangle Diagram

Using a Rectangle Diagram Multiply (2x + 1)(x + 1) Subdivide the rectangle 2x 1 Label the dimensions x x 2x2 Calculate the areas Write the expression 1 1 2x

Using a Rectangle Diagram Multiply (3x + 1)(x + -2) Subdivide the rectangle 3x 1 Label the dimensions x x 3x2 Calculate the areas Write the expression -2 -2 -6x

Using a Rectangle Diagram Multiply these: (4x +-1)(x + -3) (1+-2x)(-1+2x) (1+-x)(2+3x)

Factoring Polynomials

Use the following pieces: one x2 piece, four x pieces, and three unit pieces. Form a rectangle from these eight pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these eight pieces. Describe the dimensions of your rectangle.

Use the following pieces: one x2 piece, four x pieces, and four unit pieces. Form a rectangle from these nine pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these nine pieces. Describe the dimensions of your rectangle.

Use the following pieces: one x2 piece, five x pieces, and six unit pieces. Form a rectangle from these twelve pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these twelve pieces. Describe the dimensions of your rectangle.

Use the following pieces: one x2 piece, seven x pieces, and six unit pieces. Form a rectangle from these fourteen pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these fourteen pieces. Describe the dimensions of your rectangle.

Use the following pieces: one x2 piece, nine x pieces, and eight unit pieces. Form a rectangle from these eighteen pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these eighteen pieces. Describe the dimensions of your rectangle.

Use the following pieces: one x2 piece, eight unit pieces, a different number of x pieces. How many x pieces will you need to be able to form a rectangle from these pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these more than nine pieces. Describe the dimensions of your rectangle.

Use the following pieces: two x2 piece, seven x pieces pieces, and three unit pieces. Form a rectangle from these pieces. What polynomial is represented by the rectangle? Describe the polynomial represented by these pieces. Describe the dimensions of your rectangle.

Suppose you want to determine the two factors whose product is 2x2 +11x + 9 . Describe how you think about the arrangement of the twenty-two tiles so it will make a rectangle.

Find the factors for Find the factors for Find the factors for Find the factors for

Find the factors for Find the factors for Find the factors for Find the factors for

Suppose you want to determine the two factors whose product is . Describe how you think about the arrangement of the six tiles so it will make a rectangle.

Suppose you want to determine the two factors whose product is . Describe how you think about the arrangement of the six tiles so it will make a rectangle.

Extending the Algebra Tile Model to an Rectangle Diagram

Using a Rectangle Diagram Factor 2x2 + 3x + 1 Subdivide the rectangle 2x 1 Label the area at the bottom right x x 2x2 Label the area at the top left Think how you can separate the area of 3x 1 1 2x Label the dimensions

Using a Rectangle Diagram Factor 4x2 + 3x + -1

Using a Rectangle Diagram Factor 2x2 + 7x +3

Using a Rectangle Diagram Factor 2x2 + 7x +3

Using a Rectangle Diagram Factor 2x2 + 5x +3

Think about it Did the Distributive Property Template build understanding for the Distributive Property? Did the Algebra Tiles help you give meaning to 2(x+1)? Did the Algebra Tiles help you visualize multiplication of binomials? Did the Algebra Tiles help you visualize factoring trinomials?

Think about it Did the Multiplication Rectangle help you multiply binomials? Did the Multiplication Rectangle help you factor trinomials?

Other activities for Algebra Tiles and Rectangle Diagrams Completing the Square Solving Quadratic Equations Developing the Quadratic Formula

Activities on www.jamesrahn.com Algebra Tiles Cutout set of algebra tiles

Jim Rahn www.jamesrahn.com James.rahn@verizon.net Visualizing Multiplication of Binomials and Factoring with Algebra Tiles Jim Rahn www.jamesrahn.com James.rahn@verizon.net