engage ny math module 2
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Engage NY Math Module 2. Lesson 1: Multiply multi-digit whole numbers and multiples of 10 using place value patterns and the distributive and associative properties. Unit 2 vocabulary. Decimal Fraction = a proper fraction whose denominator is a power of 10 - PowerPoint PPT PresentationTRANSCRIPT
ENGAGE NY MATH MODULE 2
Lesson 1: Multiply multi-digit whole numbers and multiples of 10 using place value patterns and the distributive and associative properties.
UNIT 2 VOCABULARY Decimal Fraction = a proper fraction whose denominator
is a power of 10 Multiplier = a quantity by which a given number—a
multiplicand—is to be multiplied Parentheses = the symbols used to relate order of
operations Decimal = a fraction whose denominator is a power of
ten and whose numerator is expressed by figures placed to the right of a decimal point
Digit = a numeral between 0 and 9 Divisor = the number by which another number is
divided Dividend = the number to be divided Equation = a statement that the values of two
mathematical expressions are equal Equivalence = a state of being equal or equivalent Equivalent measures = e.g., 12 inches = 1 foot; 16
ounces = 1 pound
UNIT 2 VOCABULARY Estimate = approximation of the value of a quantity or
number Exponent = the number of times a number is to be used as
a factor in a multiplication expression Multiple = a number that can be divided by another
number without a remainder like 15, 20, or any multiple of 5
Pattern = a systematically consistent and recurring trait within a sequence
Product = the result of a multiplication Quotient = the answer of dividing one quantity by another Remainder = the number left over when one integer is
divided by another Renaming = making a larger unit Rounding = approximating the value of a given number Unit Form = place value counting, e.g., 34 stated as 3 tens
4 ones
MULTIPLY BY 10, 100, AND 1000Say the product.3 x 103 x 1003 x 1,0005 x 1,0000.005 x 1,00050 x 1000.05 x 10030 x 10030 x 1,00032 x 1,000
0.32 x 1,00052 x 1005.2 x 1004 x 100.4 x 100.45 x 1,00030.45 x 1,0007 x 10072 x 1007.002 x 100
PLACE VALUE
• 4 tens = ____• 4 ten thousands = ____• 4 hundred thousands = ____• 7 millions = ____• 2 thousands = _____
• 3 tens = ____
• 53 tens = ____• 6 ten thousands = ____• 36 ten thousands= ____
PLACE VALUE
• Show the answer in a place value chart.• 8 hundred thousands 36 ten thousands = ____• 8 millions 24 ten thousands = ____• 8 millions 17 hundred thousands = ____• 1034 hundred thousands = ____
• Use vertical number lines to round 8,735 to the nearest thousands, hundreds, and tens places.
• Use vertical number lines to round 7,458 to the nearest thousands, hundreds, and tens places.
ROUND TO DIFFERENT PLACE VALUES
APPLICATION PROBLEM:The top surface of a desk has a length of 5.6 feet. The length is 4 times its width. What is the width of the desk? Use a tape diagram to model your problem. Check your answer using a standard algorithm. Be sure to include a statement of solution.
Desk Length
Desk Width
5.6 feet
?
5 . 64
The width of the desk is 1.4 feet.
CONCEPT DEVELOPMENT – PROBLEM 1:
• 4 x 30• 4 x 3 tens = _______
• What is 12 tens in standard form?• 120
CONCEPT DEVELOPMENT – PROBLEM 2:
• 4 tens x 3 tens = ________. Solve with a partner.• How did you use the previous problem
to help you solve 4 tens x 3 tens?• The only difference was the place
value unit of the first factor, so it was 12 hundreds.
• It’s the same as 4 threes times 10 times 10, which is 12 hundreds.
• You multiply 4 x 3, which is 12. Then multiply ten by ten, so the new units are hundreds. Now we have 12 hundreds, or 1200.
• We can think of this problem as (4 x 3) x 100.
CONCEPT DEVELOPMENT – PROBLEM 3:
• 4 tens x 3 hundreds = ________. • How is this problem different than the last
problem?• We are multiplying tens and hundreds,
not ones and hundreds, or tens and tens.• 4 tens is the same as 4 times 10. • 4 x 10 = 40
• 3 hundreds is the same as 3 times what?• 100• 4 x 10 3 x 100
• So, another way to write our problem would be (4 x 10) x (3 x 100).
• (4 x 3) x (10 x 100)• Are these expressions equal? Why or why
not? Turn and talk to your right shoulder partner.
CONCEPT DEVELOPMENT – PROBLEM 3:
• (4 x 3) x (10 x 100)• Yes, these expressions are the same.
We can multiply in any order, so they are the same.
• What is 4 x 3?• 12
• What is 10 x 100?• 1000
• What is the product of 12 and 1,000?• 12,000
CONCEPT DEVELOPMENT – PROBLEM 4:
• 4 thousands x 3 tens = ________. • How is this problem different than the last
problem?• We are multiplying tens and thousands.• 4 thousands is the same as 4 times
1000. • 4 x 1000 = 4000
• 3 tens is the same as 3 times 10• 3 x 10 = 30• 4 x 1000 3 x 10
• So, another way to write our problem would be (4 x 1000) x (3 x 10).
• (4 x 3) x (1000 x 10)• Are these expressions equal? Why or why
not? Turn and talk to your shoulder partner.
CONCEPT DEVELOPMENT – PROBLEM 4:
• (4 x 3) x (1000 x 10)• Yes, these expressions are the same.
We can multiply in any order, so they are the same.
• What is 4 x 3?• 12
• What is 1000 x 10?• 10000
• What is the product of 12 and 10,000?• 120,000
CONCEPT DEVELOPMENT – PROBLEM 5:• 60 x 5 = ________. • (6 x 10) x 5 (6 x 5) x 10• Are both of these equivalent to 60 x 5? Why
or why not? Turn and talk to your shoulder partner.
• When we change the order of the factors we are using the commutative (any-order) property.
• When we group the factors differently we are using the associative property of multiplication.
• Let’s solve (6 x 5) x 10• 30 x 10 = 300
• For the next problem, use the properties and what you know about multiplying multiples of 10 to help you solve.
CONCEPT DEVELOPMENT – PROBLEM 6:
• 60 x 50 = ________. • Work with your table to solve this problem in
different ways. Explain your thinking using words.• I thought of 60 as 6 x 10 and 50 as 5 x
10. I rearranged the factors to see (6 x 5) and (10 x 10). I got 30 x 100 = 3,000
• I first multiplied 6 x 5 and got 30. Then I multiplied by 10 to get 300, and then multiplied by 10 to get 3,000.
• In the last problem set the number of zeros in the product was exactly the same number of zeros in our factors. That doesn’t seem to be the case here. Why is that?• 6 x 5 is 30, then we have to multiply by
100. So 30 ones x 100 is 30 hundreds or 3,000.
CONCEPT DEVELOPMENT – PROBLEMS 7-8:
• Think about what we have discussed and solve 60 x 500 and 60 x 5,000 independently in your math journal.
• 60 x 500• (6 x 5) x (10 x 100)• 30 x 1,000• 30,000
• 60 x 5,000• (6 x 5) x (10 x 1000)• 30 x 10,000• 300,000
CONCEPT DEVELOPMENT – PROBLEM 9:
• In your math journal, find the product of 451 x 8 using any method.
• How did you solve this problem?• Vertical algorithm• Distributive property (400 x 8 + 50 x 8 +
1 x 8)
• What makes the distributive property useful here? Why does it help here, but we didn’t really use it in our other problems? Turn and talk to your table.
• There are different digits in three place values instead of all zeros. If I break the number apart by unit, then I can use basic facts to get the products.
CONCEPT DEVELOPMENT – PROBLEMS 10-12:
• Use 451 x 8 to help you solve:• 451 x 80• 4,510 x 80• 4,510 x 800
• Record your answers in your journal.
PROBLEM SET
Display Problem Set on the board. Allow time for the students to complete the problems with tablemates.
EXIT TICKET
1. Find the products.
a. 1,900 × 20 b. 6,000 × 50 c. 250 × 300
2. Explain how knowing 50 × 4 = 200 helps you find 500 × 400.
HOMEWORK TASK
Assign Homework Task. Due Date: ______________