1. Module 1
Objective: Use exponents to name place value units and explain patterns in the placement of the decimal point.
Lesson 3

2. State the unit as a decimal – choral response
9 tenths = ______
20 hundredths = _____
10 tenths = _____
60 hundredths = _____
11 tenths = _____
12 tenths = _____
65 hundredths = _____
18 tenths = _____
87 hundredths = _____
28 tenths = _____
58 tenths = _____
118 tenths = _____
9 hundredths = _____
10 hundredths = _____

3. Multiply and divide by 10, 100, and 1000
Write two 1 thousandths disks and the number below it.
Multiply by 10. Cross out each disk and the number 2 to show that you’re changing its value.

4. MULTIPLY AND DIVIDE BY 10, 100, AND 1000
Using your charts, show how to multiply x 100.
0.004 x 100 = 0.4
Now show how to multiply x 1000.
0.004 x 1000 = 4.0
Based on the previous problems, what patterns do you see when you multiply by 10, 100, and 1000?
MULTIPLY AND DIVIDE BY 10, 100, AND 1000

5. Multiply and divide by 10, 100, and 1000
Write two 1 one and 4 thousandths disks and the number below it.
Multiply by 10. Cross out each disk and the numbers to show that you’re changing their value.
1.004 x 10 = 10.04

6. MULTIPLY AND DIVIDE BY 10, 100, AND 1000
Using your charts, show how to multiply x 100.
1.024 x 100 =
Now show how to multiply x 10.
1.324 x 10 =
Multiply x 1000.
1.324 x 1000 = 1324
MULTIPLY AND DIVIDE BY 10, 100, AND 1000

7. Multiply and divide by 10, 100, and 10004
Write 4 ones disk in the table above and write the number below it.
Divide by 10. Cross out each disk and the number 4 to show you’re changing its value.
4 ÷ 10 = 0.4

8. MULTIPLY AND DIVIDE BY 10, 100, AND 1000
Using your charts, show how to divide 4.1 ÷ 10.
4.1 ÷ 10 = .41
Now show how to divide 4.1 ÷ 100.
4.1 ÷ 100 = .041
Show 4.1 ÷ 1000.
4.1 ÷ 1000 =
MULTIPLY AND DIVIDE BY 10, 100, AND 1000
Describe the pattern you see when dividing by 10, 100, and 1000.

9. APPLICATION PROBLEM
Jack and Kevin are creating a mosaic by using fragments of broken tiles for art class. They want the mosaic to have 100 sections. If each section requires 31.5 tiles, how many tiles will they need to complete the mosaic? Explain your reasoning with a place value chart.

10. CONCEPT DEVELOPMENT – Problem 1
10000
1000
100 10
CONCEPT DEVELOPMENT – Problem 1
10x10x10
10x10
10x1
10x10x10x10
10 X ____ = Fill in the missing factor to complete this number sentence.
10 X ____ = 100 Fill in the missing factor to complete this number sentence.
This time, using only 10 as a factor, how could you multiply to get a product of 1000? Write the multiplication sentence.
What would the multiplication sentence be for using only 10 as a factor?
How many factors of 10 did we have to multiply to get 1000?
How many factors of 10 do we have to multiply to get 10000?
Say the number sentence.
How many zeros are in our product 10000?
Turn and share with your partners the patterns that you see.

11. CONCEPT DEVELOPMENT – problem 1
10000
1000
100 10
10x10x10x 10
10x10x10
10x10
10x1
100000
CONCEPT DEVELOPMENT – problem 1
10x10x10x 10x10x10
10x10x10x10x10
10⁶
10⁵
10⁴
10³
10²
10¹
Using this pattern how many factors of 10 do we have to multiply to get 1 million? Work with your partner to write the multiplication sentence.
How many factors of 10 did you use?
Why did we need 6 factors of 10?
We can use an exponent to represent how many times we use 10 as a factor. We can write 10 x 10 as 10². We say , “Ten to the second power.” The 2 is an exponent and it tells us how many times to use 10 as a factor.
How do we express 1000 using exponents? Turn and share with your partner.
Working with your partner, complete the chart using the exponents to represent each value in the third row.

12. CONCEPT DEVELOPMENT – problem 1
100000
10000
1000
100 10
10x10x10x 10x10x10
10x10x10 x10x10
10x10x10x 10
10x10x10
10x10
10x1
10⁶
10⁵
10⁴
10³
10²
10¹
CONCEPT DEVELOPMENT – problem 1
Multiply 10 one hundred times. What do you get?
Now look at the place value chart; let’s read our powers of 10 and the equivalent values.
Since a google has 100 zeros, write it using an exponent.

13. Concept development – problem 2
Write ten to the fifth power as a product of tens.
10⁵ = 10x10x10x10x10
Write ten to the seventh power as a product of tens.
10⁷ = 10x10x10x10x10x10x10

14. Concept development – problem 3
10 x 100
Work with your partner to write this expression using an exponent. Explain your reasoning.
10³
100 x 1000
10⁵

15. Concept development – problem 4
3 x 10²
Compare this expression to the ones we’ve already talked about.
Write 3 x 10² without using an exponent.
3 x 100
What’s the product?
300
If you know that 3 x 100 is 300, then what is 3 x 10²? Explain this to your partner.

16. Concept development – problem 5
3.4 x 10³
Use what you learned about multiplying decimals by 10, 100, and 1000 and your knew knowledge about exponents to solve the above problem.
Write 3.4 x 10³ without using an exponent.
3.4 x 1000
What’s the product?
3400
If you know that 3.4 x 1000 is 3400, then what is 3.4 x 10³? Explain this to your partner.

17. Concept development – problem 5
Solve this problem.
4.021 x 10²
Explain how you arrived at your answer.

18. Concept development – problem 6
700 ÷ 10²
Write 700 ÷ 10² without using an exponent and find the quotient.
700 ÷ 100 = 7
If you know that 700 ÷ 100 is 7, then what is 700 ÷ 10²? Explain this to your partner.

19. Concept development – problem 7
7.1 ÷ 10²
Write 7.1 ÷ 10² without using an exponent and find the quotient.
7.1 ÷ 100 = .071
Tell your partner what you notice about the relationship between the exponents and how the values of the digits change. Discuss how you decided where to place the decimal.

20. Concept development – problem 8
Complete this pattern:
______ _____ _____
Turn and talk with your partner about the pattern on the board. How is the value of the 4 changing as we move to the next term in the sequence? Use your place value chart to explain your ideas as you complete the pattern and use an exponent to express the relationships.
43,000 4,300, ,000,000

21. Concept development – problem 9
Complete this pattern:
6,300, ________ ______
Turn and talk with your partner about the pattern on the board. How is the value of the 6 changing as we move to the next term in the sequence? Use your place value chart to explain your ideas as you complete the pattern and use an exponent to express the relationships.
6,300,