1. Solve multiplicative comparison word problems by applying the area and perimeter formulas
Lesson 3.2:

2. Rename the Unit Fluency
7 tens = Complete the number sentence.
9 tens = _____
10 tens = _____
11 tens = _____
12 tens = _____
17 tens = _____
17 hundreds = _____
17 thousands = _____
13 tens = _____

3. Find The Area And Perimeter Fluency
Write a multiplication sentence to find the area of the rectangle.
4 cm × 3 cm = 12 square cm
Write the formula for perimeter and solve.
2 × (4 cm + 3 cm) = 14 cm

4. Find The Area And Perimeter Fluency
Write a multiplication sentence to find the area of the rectangle.
Write the formula for perimeter and solve.

5. Find The Area And Perimeter Fluency
What is this shape?
What do you know about a square?
Say the length of each side.
Write a multiplication sentence to find the area.
2 m × 2 m = 4 square m
Write the perimeter.
2 ×(2 m + 2 m) = 8 m

6. Find The Area And Perimeter Fluency
What is the length of each side?
Write a multiplication sentence to find the area.
Write the perimeter.

7. Find The Area And Perimeter Fluency
If we had a rectangle with an area of 12 square cm, length 2 cm, and x for the width.
Write a division sentence to find the width.
12 ÷ 3 = x
Solve
Are there other possible lengths and widths for a rectangle with an area of 12 sq cm? List them.

8. Application Problem Tommy’s dad is teaching him how
to make tables out of tiles.
Tommy makes a small table
that is 3 feet wide and 4 feet
long. How many square foot
tiles does he need to cover
the top of the table?
How many feet of decorative
border material will his dad
need to cover the edges of
the table?

9. Application Problem
Solution

10. Application Problem Bonus: Tommy’s dad is making a
table 6 feet wide and 8 feet
long. When both tables are
placed together, what will
their combined area be?

11. Application Problem
Solution for Bonus question:

12. Guided Instruction Concept Development Problem 1
Place three square inch tiles side by side as in this example.
Talk to your partner about what the width and length of this rectangle are.
If the width is 1 inch, the length is 3 inches.
What is the perimeter?
What is the area?

13. Guided Instruction Concept Development Problem 1
Make it 2 times as long.
How long is it now?
What is the perimeter?
What is the area?

14. Guided Instruction Concept Development Problem 1
Now make it three times as long as the original rectangle.
How many tiles will you add to the original 3 tiles?
Tell your partner how to find the length.
We multiply the length times 3. This new rectangle is three times as long is the same as 3 times 3 inches.

15. Guided Instruction Concept Development Problem 1
What is the perimeter of the new rectangle?
What is the area?

16. Guided Instruction Concept Development Problem 1
Repeat using tiles to find a rectangle that is 3 inches wide and 3 times as long as it is wide.

17. Guided Instruction Concept Development Problem 2
The rectangle is 2 meters wide. Draw a vertical line and label as 2 meters.
It is 3 times as long as it is wide. That means the length can be thought of as 3 segments, or short lines, each 2 meters long. Draw the horizontal lines to create a square 2 meters by 2 meters.

18. Guided Instruction Concept Development Problem 2
Draw the same length, 2 times as long.
Draw the same length, 3 times as long.
What is the length when there are 3 segments, each 2 meters long?

19. Guided Instruction Concept Development Problem 2
With your partner, draw this rectangle and label the length and width. What is the length and width?
The length is 6 meters and the width is 2 meters.
Find the perimeter. Use the chart of formulas for perimeters from Lesson 1 for reference.

20. Guided Instruction Concept Development Problem 2
Doubling the sum of 6 meters and 2 meters gives us 16 meters.
Find the area.
6 meters times 2 meters is 12 square meters.

21. Guided Instruction Concept Development Problem 2
Draw a rectangle that is 3 meters long and 4 times as wide as it is long.
What is the width?
What is the perimeter? Use the chart of formulas for perimeters.
What is the length?

22. Guided Instruction Concept Development Problem 3
Christine painted a mural with an area of 18 square meters and a length of 6 meters. What is the width of her mural? Her next mural will be the same length as the first but 4 times as wide. What is the perimeter of her next mural?
With your partner, determine the width of the first mural.
The area is 18 square meters. 18 square meters divided by 6 meters is 3 meters. The width is 3 meters.

23. Guided Instruction Concept Development Problem 3
Christine painted a mural with an area of 18 square meters and a length of 6 meters. What is the width of her mural? Her next mural will be the same length as the first but 4 times as wide. What is the perimeter of her next mural?
Reread, paying attention to the last 2 statements.
Using those dimensions, draw and label Christine’s next mural. Begin with the side length you know, 6 meters. How many copies of Christine’s first mural will we see in her next mural? Draw them.

24. Guided Instruction Concept Development Problem 3
Tell me a multiplication sentence to find how wide her next mural will be.
3 meters times 4 equals 12 meters.
Finish labeling the diagram.
Find the perimeter of Christine’s next mural.
12 meters plus 6 meters is 18 meters. 18 meters doubled is 36 meters. The perimeter is 36 meters.

25. Guided Instruction Concept Development Problem 4
Sherrie’s rectangular garden is 8 square meters. The longer side of the garden is 4 meters. Nancy’s garden is twice as long and twice as wide as Sherrie’s rectangular garden.
With your partner, draw and label a diagram of Sherrie’s garden.
What is the width of Sherrie’s garden?
Two meters because 8 square meters divided by 4 meters is 2 meters.

26. Guided Instruction Concept Development Problem 4
Sherrie’s rectangular garden is 8 square meters. The longer side of the garden is 4 meters. Nancy’s garden is twice as long and twice as wide as Sherrie’s rectangular garden.
Read the last 2 statements. Draw Nancy’s garden which is twice as long as 4 meters is how many meters?
8 meters
Twice as wide as 2 meters is how many meters?
4 meters

27. Guided Instruction Concept Development Problem 4
Draw Nancy’s garden and find the perimeters of both gardens.
Tell your partner the relationship between the two perimeters.
Sherrie’s garden has a perimeter of 12 meters.
Nancy’s garden has a perimeter of 24 meters.
The length doubled and the width doubled, so the perimeter doubled!
12 meters times 2 is 24 meters.

28. Guided Instruction Concept Development Problem 4
If Sherrie’s neighbor had a garden 3 times as long and 3 times as wide as her garden, what would be the relationship of the perimeter between those gardens?
The perimeter would triple!
Solve for the area of Sherrie’s,
Nancy’s, and the
neighbor’s gardens.

29. Guided Instruction Concept Development Problem 4
Sherrie’s garden has an area of 8 square meters.
Nancy’s garden has an area of 32 square meters.
The neighbor’s garden has an area of 72 square meters.

30. Guided Instruction Concept Development Problem 4
The length and width of Nancy’s garden is double that of Sherrie’s garden, but the area did not double.
The length is doubled and the width is doubled, 2 times 2 is 4, so the area will be 4 times as large.
The area quadrupled! We can put the area of Sherrie’s garden inside Nancy’s garden 4 times.
The length and width of the neighbor’s garden tripled, so 3 times 3 is 9.
The area of the neighbor’s garden is 9 times that of Sherrie’s.

31. Guided Instruction Concept Development Problem 4
We can create a table to show the relationship among the areas and perimeters of the three gardens.

32. Guided Instruction Concept Development Problem 4

33. Exit Ticket
A balance beam at a playground is 2 feet wide. It is 6 times as long as it is wide.
a. Draw and label the diagram with the dimensions of the balance beam.
b. Find the perimeter of the balance beam.

34. Exit Ticket
A blanket is 4 feet wide. It is 3 times as long as it is wide.
Draw a diagram of the blanket and label its dimensions.
Find the perimeter and area of the blanket.

35. Math Log
How did the Application Problem connect to today’s lesson?