4th Grade Math Mini-Lesson 10

4th Grade Math Mini-Lesson 10
Multiplication MA.A.3.2.3

MA.A.3.2.3 The student adds, subtracts, and multiplies whole numbers, decimals, and fractions, including mixed numbers, and divides whole numbers to solve real-world problems, using appropriate methods of computing, such as mental mathematics, paper and pencil, and calculator.

Part 1 Explicit Instruction

Explicit Instruction (about 15 minutes)
For this Mini-Lesson, we are going to review multiplication.

Multiplication is a shortcut for adding same-size groups! That is correct! You just won ONE MILLION dollars! “…And now, for the ONE MILLION DOLLAR question…” What is multiplication?

Multiplication is a shortcut for adding same-size groups. Imagine that today you are going to recycle all of the cans you have been collecting. There are 869 cans waiting to be turned in for 5 cents each. You certainly don’t want to add 5 cents 869 times, so you will be really glad you know how to multiply!

Two terms that you may hear used in multiplication are factor and product. 7 X 8 = 56 factor factor product

If you know how to multiply 1-digit numbers, such as 6 x 7, you can also multiply larger numbers, such as 6 x 77. One way to multiply larger numbers is by finding partial products. Let’s check out partial products!

You can multiply without listing every partial product. Let’s solve 15 x 9 without listing every partial product. 15 x 9 So, 15 x 9 = 13 tens and 5 ones, or 135. 4 9 x 10 = 90, but we can’t forget about the 4 tens. = 130 45 is 4 tens and 5 ones. We are not listing every partial product, so 130 equals 13 tens. Let’s multiply by the ones. 9 x 5 = 45 Let’s multiply by the tens. 9 x 10 = 90 13 5

We have our partial products, 45 and 90. Let’s add our partial products. So, 15 x 9 = 135! Explicit Instruction (about 15 minutes) Let’s solve 15 x 9 using partial products. 15 x 9 45 15 is 1 ten and 5 ones. 15 is 1 ten and 5 ones. 9 x 1 ten = 90 Now, multiply the tens. 9 x 5 ones = 45 First, let’s multiply the ones. +___ 135 90

Another way to multiply larger numbers is to think of an area model. The area model for multiplication is a pictorial way of representing multiplication. In the area model, the length and width of a rectangle represent factors, and the area of the rectangle represents their product. I remember area from 3rd grade! Area is the number of square units needed to cover a figure. That’s right! You have a great memory!

Let’s look at an example of an area model for 7 x 8 = 56. 8 (factor) 7 x 8 means 7 groups of 8, or 7 rows of 8. In this area model, we have 7 rows with 8 squares in each row. 56 (product) 7 (factor)

We broke our original area model into two rectangles. Now, we have factors for each rectangle. All we have to do is find the products and add them up! = 135 15 x 9 = 135 9 Let’s solve 15 x 9 using an area model. 5 x 9 = 45 10 x 9 = 90 10 Let’s decompose 15 into 10 and 5. Both of these numbers are easy to work with. 15 and 9 are factors. Let’s label our area model. 90 15 45 5

Let’s see other ways to think about 15 x 9. I think about 15 x 10, which is easy because working with multiples of 10 is like skip counting by 10. So, 15 groups of 10 is 150. since I only had to multiply 15 x 9, 150 is one group of 15 too much. 150 – 15 = 135. I think about breaking up 15 into 10 and 5. I know 10 x 9 equals 90. 5 is half of 10, so 5 x 9 is half of 90, or 45. = 135

Before we move on, I have a question about the area model for multiplication. I really like it, but what happens when you have a 2 digit number multiplied by a 2 digit number? For example, if we wanted to use the area model for 24 x 32, would we have to draw this…

GREAT QUESTION! No, we don’t have to draw that to multiply 2 digit numbers. Let’s look at an open array! PHEW! That would take a long time to draw!

We can take the idea of an area model and apply it to double digit multiplication. We can use rectangles to represent our factors. Let’s look at 24 x 32 on an open array model.

There are now four small arrays that have two factors. Let’s start multiplying! Now let’s decompose our factors into easy numbers to work with. 24 = 32 = We can now break our large rectangle into smaller arrays. This will help us find products. We have products for all four arrays! Let’s add them up! = 768 First, let’s draw a rectangle and label our factors. 24 x 32 means 24 groups of 32, or 24 rows of 32. 24 x 32 = 768 24 x 32 32 30 2 20 x 30 = 600 20 x 2 = 40 20 24 4 x 30 = 120 4 4 x 2 = 8

Let’s multiply by the tens. 30 x 24. 30 x 4 = 120 30 x 20 = 600 hundred = 700 So, 30 x 24 = 720 24 x 34 = 816 Let’s add! = 816 Let’s start by multiplying by the ones. 4 x 24. 4 x 4 = 16 4 x 20 = 80 ten = 90 So, 4 x 24 = 96 1 First, we will solve by not listing all of the partial products. We can also use partial products to answer 2 digit multiplication problems. Let’s look at 24 x 34. 1 24 x 34 9 6 + ____ 816 7 20

We can now add our partial products! = 816 Now, let’s multiply by the tens. 30 x 20 = 600 Let’s start by multiplying by the ones. 4 x 20 = 80 Let’s start by multiplying by the ones. 4 x 4 = 16 We can also use partial products to answer 2 digit multiplication problems. Let’s look at 24 x 34. Now, we will solve by listing all of the partial products, and adding them up to get the product. Now, let’s multiply by the tens. 30 x 4 = 120 24 x 34 16 80 120 + ____ 816 600

Part 2 Guided Practice

Guided Practice (5 – 7 minutes)
Let’s review: Multiplication is a shortcut for adding same-size groups. We can solve problems using partial products and area models.

Let’s look at some word problems that can be solved using multiplication.

Wanda has 6 pages of math problems to do for homework. There are 28 problems on each page. How many math problems does Wanda have to do? I am going to use partial products, and I am going to list my partial products that I need to add up. I’m a gentleman, so ladies first! I’m glad I know multiplication! Imagine adding 28 six times? Even worse, 6 twenty-eight times! I bet I would make a lot of mistakes that way. I am going to use partial products, but I am not going to list every partial product.

Wanda has 6 pages of math problems to do for homework. There are 28 problems on each page. How many math problems does Wanda have to do? First, I am going to multiply 6 x 8 ones. 6 x 8 = 48 Then, I am going to multiply 6 x 2 tens. 6 x 20 = 120 = 168 Wanda has 168 math problems to do. Since I have my partial products, all I have to do now is add them up! I am going to use partial products, and I am going to list my partial products that I need to add up. 28 x 6 48 + ____ 168 120

Now I am going to multiply 6 x 2 tens. 6 x 20 = 120 I can’t forget about the 4 tens from 48. = 160 160 = 16 tens Wanda has 168 math problems to do. Wanda has 6 pages of math problems to do for homework. There are 28 problems on each page. How many math problems does Wanda have to do? First I am going to multiply 6 x 8. 6 x 8 = 48, and 48 is 4 tens and 8 ones. I am going to use partial products, but I am not going to list every partial product. 4 Cool! We got the same answer! 28 x 6 16 8

Wanda has 6 pages of math problems to do for homework. There are 28 problems on each page. How many math problems does Wanda have to do? Wanda has 168 math problems to do. Almost done! = 168 Let’s use our factors to find products! Now we can divide our large rectangle into smaller arrays. We can decompose 28 into friendlier numbers, like 20 and 8. First, we’ll draw a rectangle and label the factors. Let’s try the area model for this problem! 28 20 8 6 x 20 = 120 6 6 x 8 = 48

Isn’t that great! You all had a different way of multiplying 28 x 6, but you all got the same answer! I thought of one more way to solve 6 x 28! I thought about 6 x 30, which is Then, I realized I was two groups of 6 over, so I subtracted 12. 180 – 12 = 168

One level of a parking garage holds 75 cars. There are 16 levels in the parking garage. How many cars can the parking garage hold? I went first last time, so you can go first this time. I am going to use partial products, and I am going to list my partial products that I need to add up. Imagine adding 75 sixteen times? I am going to use partial products, but I am not going to list every partial product.

Let’s add! = 1200 Let’s multiply by the tens. 10 x 75. 10 x 5 = 50 10 x 70 = 700 So, 10 x 75 = 750 The parking garage holds 1200 cars. 75 x 16 = 1200 Guided Practice (5 – 7 minutes) Let’s start by multiplying by the ones. 6 x 75. 6 x 5 = 30 6 x 70 = 420 tens = 450 So, 4 x 24 = 450 One level of a parking garage holds 75 cars. There are 16 levels in the parking garage. How many cars can the parking garage hold? I am going to use partial products, but I am not going to list every partial product. 3 75 x 16 45 + ____ 1200 7 50

The parking garage holds 1200 cars. One level of a parking garage holds 75 cars. There are 16 levels in the parking garage. How many cars can the parking garage hold? Let’s start by multiplying by the ones. 6 x 5 = 30 Let’s start by multiplying by the ones. 6 x 70 = 420 Now, let’s multiply by the tens. 10 x 70 = 700 We can now add our partial products. = 1200 Now, let’s multiply by the tens. 10 x 5 = 50 I am going to use partial products, and I am going to list my partial products that I need to add up. 75 x 16 30 420 50 + ____ 1200 700

The parking garage holds 1200 cars. Guided Practice (5 – 7 minutes) One level of a parking garage holds 75 cars. There are 16 levels in the parking garage. How many cars can the parking garage hold? We are ready to multiply! Let’s add up all our areas! = 1200 We can decompose our factors. 75 is 70 and 5. 16 is 10 and 6. Let’s divide up our rectangle into 4 smaller arrays. I have been waiting to try another area model with double digit numbers! First, let’s draw our rectangle and label our factors. 75 70 5 10 10 x 70 = 700 10 x 5 = 50 16 6 6 x 70 = 420 6 x 5 = 30

Part 3 Independent Practice

Independent Practice (5 - 7 minutes)
Mrs. Robinson planted 17 rows of palmetto palm trees. There are 9 trees in each row. How many trees did Mrs. Robinson plant? A. 963 B. 153 C. 93 D. 26 Adam bought 45 packs of gum. Each pack has 6 pieces of gum. How many pieces of gum did Adam buy? A. 51 B. 240 C. 270 D

4. Mr. Sinnott has taught fourth grade for 24 years. Each year, he has had 27 students in his class. How many fourth graders has Mr. Sinnott taught? A. 51 B. 216 C. 628 D. 648 Tim has 19 boxes of baseball cards. There are 81 cards in each box. How many baseball cards does Tim have in all? A. 1,719 B. 1,629 C. 1,539 D. 1,459

5. The fourth grade classes are having a food drive. There are 84 students in the fourth grade. The goal is for each student to collect 16 cans of food. How many cans will be collected in all if each fourth grader achieves the goal? A. 1,464 B. 1,344 C. 100 D. 48

The answers to the Independent Practice questions appear on the next 3 slides.

Mrs. Robinson planted 17 rows of palmetto palm trees. There are 9 trees in each row. How many trees did Mrs. Robinson plant? A. 963 B. 153 C. 93 D. 26 Adam bought 45 packs of gum. Each pack has 6 pieces of gum. How many pieces of gum did Adam buy? A. 51 B. 240 C. 270 D

4. Mr. Sinnott has taught fourth grade for 24 years. Each year, he has had 27 students in his class. How many fourth graders has Mr. Sinnott taught? A. 51 B. 216 C. 628 D. 648 Tim has 19 boxes of baseball cards. There are 81 cards in each box. How many baseball cards does Tim have in all? A. 1,719 B. 1,629 C. 1,539 D. 1,459

5. The fourth grade classes are having a food drive. There are 84 students in the fourth grade. The goal is for each student to collect 16 cans of food. How many cans will be collected in all if each fourth grader achieves the goal? A. 1,464 B. 1,344 C. 100 D. 48

Mini-Assessment Form A
Part 4 Mini-Assessment Form A

Mini-Assessment Form A (5 - 7 minutes)
Test ID #9114

At a school concert, the student singers stand in 4 rows. There are 16 students in each row. What is the total number of students in the 4 rows? A. 64 B. 54 C. 44 D. 20

On Monday, 3 school buses take students to Miller School. Each bus carries 34 students. How many students take the bus to Miller School on Monday? A. 92 B. 97 C. 102 D. 112

3. A cornfield contains 46 rows of corn. There are 32 corn stalks in each row. How many total corn stalks are there in the cornfield? A. 1,362 B. 1,372 C. 1,462 D. 1,472

Each student in Mrs. Kirk’s class sold 18 magazine subscriptions. There are 22 students in the class. How many subscriptions did the class sell in all? A. 386 B. 396 C. 406 D. 416

For 31 days, Willa collected bottles to recycle. She collected 36 bottles each day. How many total bottles did Willa collect? A. 1,016 B. 1,116 C. 1,216 D. 1,316

The answers to the Mini-Assessment appear on the following slide.

C D B

Provide reteaching to students who do not receive 60% or better on the Mini-Assessment.

Part 5 Reteach/ Enrich

Mini-Assessment Form B

Mini-Assessment Form B (5 - 7 minutes)
Test ID #9115

A flower garden has 8 rows of rose bushes. There are 13 rose bushes in each row. How many rose bushes are there in all? A. 114 rose bushes B. 104 rose bushes C. 94 rose bushes D. 21 rose bushes

Ms. Keller’s students have a goal to collect a total of 48 cans of food each day during their food drive. The food drive lasts 8 days. If they meet their goal, what will be the total number of cans Ms. Keller’s students collect? A. 324 B. 334 C. 366 D. 384

At a school concert, the student singers stand in 16 rows. There are 27 students in each row. What is the total number of students in the 16 rows? A. 422 B. 432 C. 522 D. 532

4. There are 20 juice packs on a store shelf. Each juice pack contains 12 juice boxes. What is the total number of juice boxes on the shelf? A. 24 B. 32 C. 200 D. 240

Each student in Mr. Pool’s class brought in 49 soup can labels. There are 18 students in the class. How many labels did the class collect in all? A. 882 B. 812 C. 441 D. 67

The answers to the Mini-Assessment appear on the following slide.

D A

4th Grade Math Mini-Lesson 10

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