Multiplying 2 x 2 digit numbers

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Presentation transcript:

Multiplying 2 x 2 digit numbers Essential Question: How can I use place value to help me multiply 2 x 2 digit numbers? Many, Many, Many Multiplication Methods

Vocabulary Review 6 x 4 = 24 + 6 x 4 = 24 partial products product factors 6 x 4 = 24 product 16 x 4 = 10 x 4 = 40 + 6 x 4 = 24 partial products

Place Value Chart 3 Thousands Hundreds Tens Ones X 10 3 X 10 How does the value of a digit change as it moves from the ones place to the tens place?

Place Value Chart 3 Thousands Hundreds Tens Ones X 10 3 X 10 How does the value of a digit change as it moves from the ones place to the tens place?

Place Value Chart 3 Thousands Hundreds Tens Ones X 10 3 X 10 How does the value of a digit (number 0-9) change as it moves from the tens place to the hundreds place?

Place Value Chart 3 Thousands Hundreds Tens Ones X 10 X 10 3 X 10 X 10 Using a place value chart, we can multiply by 10, 100, etc. How many equations can we write from this demonstration? 3 x 10 = 30 30 x 10 = 300 3 x 10 x 10 = 300 3 x 100 = 300

Place Value Chart Decompose 40 to a multiple of 10. 3 x 40 = 3 x 4 x 10 = 3 x 4 x 10 = Solve 3 x 4. Think of 12 on the place value chart. 12 x 10 = To multiply by 10, slide over one place on the place value chart. 120 Thousands Hundreds Tens Ones

Area Model Here’s a 2 digit times 2 digit example: 43 x 29 40 + 3 20 + 9 20 x 3 = 60 20 x 40 = 800 9 x 3 = 27 9 x 40 = 360 Add the partial products: 800 + 60 = 860 360 + 27 = 387 1,247 43 x 29 = 1,247

Area Model Let’s try it! Draw the frame Write the equations in each area Add the partial products

Area Model Let’s try another 2 digit times 2 digit problem: 21 x 58= 50 + 8 20 + 1 20 x 8 = 160 20 x 50 = 1000 1 x 8 = 8 1 x 50 = 50 Add the partial products: 1000 + 160 = 1160 50 + 8 = +__58 1,218 21 x 58 = 1,218

Partial Products Break apart one factor to make the multiplication problems easier to solve. Here’s a simple example using an array.

5 rows of 7 blocks = 5 x 7 7 5

If I don’t know my 7’s tables, I can use the Distributive Property to break apart the factor 7 into two numbers that are easier for me to multiply. 5 x 7 = 35 5 2 5 x 5 = 25 5 x 2 = 10 5 5 x 7 = 35

Partial Products 68 x 7 = Here’s an example using numbers only. (60 x 7 ) + (8 x 7) = (60 + 8) x 7 = 420 + 56 = 476

Partial Products When we are using numbers only, we can always refer back to the pictures of the area model in our minds. 60 + 8 7 60 x 7 = 420 8 x 7 = 56 420 + 56 = 476

Partial Products Are you ready to try?

Partial Products Break apart both factors to make the multiplication problems easier to solve. 43 x 29 40 x 20 = 800 40 x 9 = 360 3 x 20 = 60 3 x 9 = 27 Add the partial products: 800 + 360 + 60 + 27 = 1247 43 x 29 = 1247

Partial Products Again, we can think back to our area model to help us visualize what we are doing. 40 + 3 20 + 9 20 x 3 = 60 20 x 40 = 800 9 x 3 = 27 9 x 40 = 360 Add the partial products: 800 + 60 = 860 360 + 27 = 387 1,247 43 x 29 = 1,247

Partial Products Are you ready to try breaking apart both factors? 45 x 18=

Distributive Property Phew. We’ve already learned this! All, or nearly all, of the methods we learned tonight use the distributive property – breaking apart one or both factors to find partial products.

You try… Use your favorite strategy. 1) 34 x 14= 2) 25 x 63= 3) 47 x 32= 4) 28 x 53= 5) 68 x 22= 6) 17 x 52=