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### Course: 6th grade foundations (Eureka Math/EngageNY)>Unit 4

Lesson 2: Topic B: Foundations

# Factors and multiples

Learn about factors and multiples and how they relate to each other.

## Factors

Factors are whole numbers that can evenly divide another number.

### Picturing factors

Factors give us a way to break down a number into smaller pieces. We can arrange dots into equal sized groups to help us picture the factors of $12$.
$12$ dots can be arranged in $1$ row with $12$ dots.
$1×12=12$
$12$ dots can also be arranged in $2$ rows with $6$ dots per row.
$2×6=12$
Or, we can arrange $12$ dots in $3$ rows with $4$ dots in each row.
$3×4=12$
Once we figure out all of the ways that $12$ dots can be arranged, we can look at the number of rows and number of dots in each row to find the factors of $12$.
$1$, $12$, $2$, $6$, $3$, and $4$ are all factors of $12$.
We can make $12$ with a row of $5$ and a row of $7$. So are $5$ and $7$ factors of $12$?
No. $5$ and $7$ are not factors because the dots are not divided into equal sized groups.
Which of the following arrangements are possible for $18$ dots?

So what are the factors of $18$?

### Finding factors without pictures

We can find the factors for $16$ without drawing dots by thinking about numbers that will divide into $16$ evenly.
$1$ is a factor of $16$ because $1$ can be divided into $16$ with no remainder.
$16÷1=16$
The quotient, which is $16,$ is also a factor of $16$.
$2$ is a factor of $16$ because $2$ can be divided into $16$ with no remainder.
$16÷2=8$
The quotient, which is $8$, is also a factor of $16$.
$4$ is a factor of $16$ because $4$ can be divided into $16$ with no remainder.
$16÷4=4$
In this case the quotient is $4$, which we have already discovered is a factor of $16$.
The factors of $16$ are $1,16$, $2,8,$ and $4$.
Numbers like $3$ and $5$ are not factors of $16$ because they cannot be divided evenly into $16$.
Use division to determine which of the following numbers are factors of $35$.
Factor $1$‍ $2$‍ $3$‍ $5$‍ $7$‍ $35$‍

## Factor hints

Every number has $1$ as a factor.
$1$ is a factor of $10$.
$1$ is a factor of $364$.
$1$ is a factor of $5,787$.
Every number has itself as a factor.
$41$ is a factor of $41$.
$128$ is a factor of $128$.
$4,379$ is a factor of $4,379$.

## Factor pairs

Two numbers that we multiply together to get a certain product are called factor pairs. To get the product of $8$, we can multiply $1$ $×$ $8$ and $2$ $×$ $4$. So the factor pairs for $8$ are $1$ and $8$ and $2$ and $4$.
Arranging dots in equal sized groups helps us to see that factors always come in pairs. One factor in the factor pair is the number of rows. The other factor in the factor pair is the number of dots in each row.
Let's find the factor pairs of $20$. Remember, we are looking for two whole numbers that we can multiply together to get $20$.
We'll start with $1$ because we know that $1$ is a factor for every number. We multiply $1×20$, to get $20$, so $20$ is also a factor. We can list these factors as the outside ends of a list, leaving room in the middle for additional factors.
$1$$20$
Now we check to see whether the next counting number, $2$, is a factor.
Is there a whole number we can multiply by $2$ to get $20$? Yes. $2×10=20$. So $2$ and $10$ are another factor pair.
$1$$2$$10$$20$
The next counting number is $3$. Is there a whole number we can multiply by $3$ to get $20$? No. So $3$ is not a factor of $20$.
Can we multiply $4$ by a whole number to get $20$? Yes. $4×5=20$. So $4$ and $5$ are a factor pair.
$1$$2$$4$$5$$10$$20$
The next counting number is $5$. Since $5$ already appears on the list, we now have found all of the factor pairs for $20$.
Match the factor pairs for $40$.

## Multiples

Multiples are numbers that result when we multiply one whole number by another whole number. The first four multiples of $3$ are $3,6,9$, and $12$ because:
$3×1=3$
$3×2=6$
$3×3=9$
$3×4=12$
Some other multiples of $3$ are $15,30$ and $300$.
$3×5=15$
$3×10=30$
$3×100=300$
We can never list all of the multiples of a number. In our example, $3$ could be multiplied by an infinite number of numbers to find new multiples.

### Practice problems

The first multiple of any number is the number itself.
$7×1=7$.
What are the next two multiples of $7$?
$7×2=$

$7×3=$

The list shows multiples of $4$.
$4,8,12,16,\text{…}$
What is the next multiple of $4$?

The list shows multiples of $8$.
Fill in the missing multiples.
$8,16$,
, $32,40,48$,
...

Which of the following numbers are multiples of $6$?

### Picturing multiples

The following pictures show multiples of $4$.
$4×1=4$
$4×2=8$
$4×3=12$
The next box will include the next multiple of $4$.
How many ladybugs will be in the next box?

### How do factors and multiples relate?

$4$ and $7$ are both factors of $28$ because they both divide evenly into $28$.
$28$ is a multiple of $4,$ and it is also a multiple of $7$.
Use the numbers $32$ and $4$ to complete the following sentences.
is a factor of
.
is a multiple of
.

## Practice with factors and multiples

Which of the following are factors of $10$?

Which of the following are multiples of $10$?

We know that $9×6=54$
So, which of the following statements are also true?

## Factors and multiples challenge

Factors and multiples are used when solving problems about the side lengths and areas of rectangles.
A rectangle has an area of $50$ square cm.
Which of the following could be the side lengths of the rectangle?

Mr. Trimble is putting out $36$ chocolate chip cookies for the students in his art club.
If he arranges the cookies in $3$ rows, there will be
If he arranges the cookies in
rows, there will be $4$ cookies in each row.

## Want to join the conversation?

• i dont understand why the multiples of 10 are not 2,5 and why the answer is 10,30,40? can you please explain
• The multiples are what it can create. For example, 10x2=20, 10x3=30
and the factors are what its made of. For example 10=5x2
• Don't you get something if you try a lot and with some mistakes ?
• Absolutely! Trying hard and making mistakes is one of the ways you learn. You wouldn't learn much if you just watch the video.
• how are you supposed to anwser the question above .It doesn't make sense.
• Sometimes if a question doesn't make sense, it helps to click on clues or hints that might be available.

Clicking on those will mean you won't get that question correct, but at least the hints will help you understand the question (and the answer) next time it comes up.
• Confuseing ;l is it or is it easy for u guys :c
• hey i know this comment is old, but don't give up. I'm an 11th grader starting from the bottom of math and working my way back up because my foundation wasn't strong. Don't rush math, because even if you can move on if your foundation isn't strong, it will come back to bite you in the butt.
• Is zero a multiple of any number, and why not?
• 0 is not a multiple because [#] x 0 = 0. So, if you do 10 x 0 = 0.
• How do you answer the question on how factors and multiples relate
• factors are how you times it by for example 2*5=10 mutiples is how you can you times the whole number say like the multiples of 10 are 20,30,40,50,60,70,80,90,100 those are mutiples
• What dose it mean by : 3 rows of _ cookies in each row? And, if he arranges in _ rows, there will be 4 cookies in each row?
• He is just stating that if you rearrange the cookies there can either be 3 rows of 4 or 4 rows of 3.
• If he arranges the cookies in 333 rows, there will be
12
If he arranges the cookies in
9
rows, there will be 444 cookies in each row.
Correct
• Great Job!! That is the correct answer!!
• is428 = to 45=01q84
• Q=39?
45=1q+84
-84 -84
-39=1q
÷1 ÷1
-39=q
45=1(-39)+84
45=-39+84
45=45