Number (mult/div)

Interpret products (1,2,3,5,10)

Arrays as products (1,2,3,5,10)

Multiplication and division using groups (1,2,3,5,10)

Multiplication and division using arrays (1,2,3,5,10)

Find unknowns in multiplication and division problems (1,2,3)

Find unknowns in multiplication and division problems (5,10)

Find unknowns in multiplication and division problems (1,2,3,5,10)

Multiplication and division tables (2,3,5,10)

Multiplication and division (turn arounds and fact families) (0,1,2,3,5,10)

Number sentences and word problems (1,2,3,5,10)

Extending multiplication and division calculations using patterns (1,2,3,5,10)

Problem solving with multiplication and division (1,2,3,5,10)

Multiplication as repeated addition (10x10)

Interpreting products (10x10)

Arrays as products (10x10)

Multiplication and division using groups (10x10)

Multiplication and division using arrays (10x10)

Find unknowns in multiplication and division problems (0,1,2,4,8)

Find unknowns in multiplication and division problems (3,6,7,9)

Find unknowns in multiplication and division problems (mixed)

Multiplication and division tables (10x10)

Multiplication and division (turn arounds and fact families) (10x10)

Find quotients (10x10)

Number sentences and word problems (10x10)

Multiplication and division by 10

Extending multiplication and division calculations using patterns (10x10)

Problem solving with multiplication and division (10x10)

Properties of multiplication (10x10)

Multiplication as repeated addition (15x15)

Interpreting products (15x15)

Arrays as products (15x15)

Multiplication and division using groups (15x15)

Multiplication and division using arrays (15x15)

Multiplication and division tables (15x15)

Find quotients (15x15)

Number sentences and word problems (15x15)

Problem solving with multiplication and division (15x15)

Multiply a two digit number by a small single digit number using an area model

Multiply a two digit number by a small single digit number

Multiply a single digit number by a two digit number using an area model

Multiply a single digit number by a two digit number

Multiply a single digit number by a three digit number using an area model

Multiply a single digit number by a three digit number

Multiply a single digit number by a four digit number using an area model

Multiply a single digit number by a four digit number

Multiply 2 two digit numbers using an area model

Multiply 2 two digit numbers

Multiply a two digit number by a 3 digit number

Multiply 3 numbers together

Divide a 2 digit number by a 1 digit number using area or array model

Divide a 2 digit number by a 1 digit number

Divide a 3 digit number by a 1 digit number using area or array model

Multiply various single and double digit numbers

Divide various numbers by single digits

Solve division problems presented within contexts

Multiply various single, 2 and 3 digit numbers

Class IV

Properties of multiplication (10x10)

Lesson

Any order is okay

Before we get too far into this one, have a play with the applet below.

Create an array by using the sliders
Then rotate the array around to a different orientation
Does the size of the array change?
Why do we write the multiplication differently?
Are the answers to the multiplication the same?

Created with Geogebra

With multiplication, it doesn't matter which way two numbers are multiplied together, we get the same answer each time. This is called the commutative property of multiplication or turnarounds.

You might like to refresh your memory on using arrays for multiplication (and division), as this is what we are going to use to prove that we can multiply numbers in any order.

Using multiplication turnarounds

Now that we know we can multiply numbers in any order, let's look at how we can use them to solve some multiplication questions. We will look at multiplying by 0 and multiplying by 1.

Did you know?

Not only can you multiply two numbers in any order, you can multiply any quantity of numbers, in any order.

Why don't you see if you can prove that this works? Perhaps you can solve $3\times4\times5$3×4×5 and see if you get the same answer as you do when you solve $5\times4\times3$5×4×3. Can you write this problem in a different order again, and solve it?

Worked example

Question 1

The commutative property of multiplication says that the order of numbers doesn't matter in multiplication. For example, $3\times7=7\times3$3×7=7×3.

Use the commutative property to complete the following statements:

If $5\times3=15$5×3=15, then $3\times5=\editable{}$3×5=.
If $5\times4=20$5×4=20, then $4\times5=\editable{}$4×5=.
If $5\times\editable{}=35$5×=35, then $\editable{}\times5=35$×5=35.

Question 2

Answer the following questions:

When $16$16 is multiplied by $1$1, the answer is:
$1$1
A
$16$16
B
$0$0
C
When $1195$1195 is multiplied by $1$1, the answer is:
$1$1
A
$1195$1195
B
$0$0
C
When any number (that isn't zero) is multiplied by $1$1, the answer is:
$0$0
A
$1$1
B
Itself
C

Question 3

Let's see if we can work out $4\times5\times3$4×5×3 by multiplying any pair of the numbers first.

First find $4\times5=\editable{}$4×5=.

Then multiply the result by $3$3, to get $\editable{}\times3=\editable{}$×3=.
Now find $5\times3=\editable{}$5×3=.

Then multiply the result by $4$4, to get $4\times\editable{}=\editable{}$4×=.
This time, find $4\times3=\editable{}$4×3=.

Then multiply the result by $5$5, to get $\editable{}\times5=\editable{}$×5=.
Does the order of multiplication matter?
No
A
Yes
B

Outcomes

4.N.NO.1

Writes multiplication facts.

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