Let's use an area model to find the answer to $133\div7$133÷7.
We set up the area model using a rectangle like this.
$7$7 | |
Total area: $133$133 |
Now if we don't know straight away what $133\div7$133÷7 is, we start with something we do know, like groups of $10$10.
Fill in the area used so far if we take out $10$10 groups of $7$7.
$10$10 | ||
$7$7 | $\editable{}$ | |
Total area: $133$133 |
How much area is remaining?
$10$10 | ||
$7$7 | $70$70 | $\editable{}$ |
Total area: $133$133 |
What is the width of the second rectangle?
$10$10 | $\editable{}$ | |
$7$7 | $70$70 | $63$63 |
Total area: $133$133 |
Using the area model above, what is $133\div7$133÷7?
Let's use an area model to find the answer to $315\div3$315÷3.
Let's use an area model to find the answer to $702\div6$702÷6.
We want to find $108\div6$108÷6.