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## Operations and Algebraic Thinking 189-200

### Course: Operations and Algebraic Thinking 189-200 > Unit 4

Lesson 3: Associative property of multiplication- Associative property of multiplication
- Properties of multiplication
- Understand associative property of multiplication
- Associative property of multiplication
- Using associative property to simplify multiplication
- Use associative property to multiply 2-digit numbers by 1-digit

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# Using associative property to simplify multiplication

CCSS.Math:

Sal uses the associative property to multiply 2-digit numbers by 1-digit numbers.

## Want to join the conversation?

- Can't we do like that 3*21 = (3*20)+(3*1)=60+3=63

For me it is much more easier to do them

like 83 *4 =(80*4)+(3*4)=320+12=332?(15 votes)- Yes you can do it like that.(5 votes)

- i dosent know how to do this very well can i has some help?(9 votes)
- There was so many numbers and number sentences I couldn't understand anything. Why are we doing so much things?(7 votes)
- the more you lern the better(4 votes)

- why does the teachers make math so hard(6 votes)
- Does it matter, if you wrote the answer to be 15 x 3 = (3x3) x 5 = 9 x 5 = 45.4:15/4:30video time.(5 votes)
- Good question!

It doesn't. In multiplication, the product will be the same no matter what order you write the numbers:

3x4x5 = 5x3x4 = 4x5x3 = 3x5x4 = 60(3 votes)

- why does 3x1=3?(2 votes)
- 3×1=3 because:

You added 3 one time, or

You added 1 three times.(6 votes)

- Can some one help me?(1 vote)
- Okay. So, when multiplying a value of two digits or longer, by a value of one digit, you are making a one-digit by one-digit multiplication at each place value, but since they are of higher place values, each also needs to have their appropriate place values.

The video has five times 18. So first you do 5 times 8. That equals 40. Then you have a 5x1, which equals 5. But since the 1 is in the ten's place, the value of this product is 50.

After you finish the multiplication of the individual digits, you add them according to their place values. Previously, you were*pretending*that every value was of the one'a place, but for the correct product you will now need to add each to their actual place values. Both the 5 and 4 are in the ten's place, and is why there is 90.

Sometimes, you may have a digit on a line that, when added to digit below, gives a sum greater than 10. In this case, the next higher place value needs to be increased by the so the 10s are not forgotten (that is what occurred when the 5 times 8 was done).

For example, if you have**27x9**, you first multiply the 7 by the 9 for a 63. Write a**3 in the one's place**, and a**6 above the digits in the ten's place**so it will be added later.

Next, you multiply the 2 by the 9. This equals 18, so write an 8 in the ten's place and a 1 in the next higher place value.

Now, you**add the 6 with the 8**and get a**14**. The 4 goes into a row in the ten's place, and the 1 goes to the next higher place value.

Since there are two 1s, you get a 2. These are in the hundreds place, so there are two hundreds (for the hundreds themselves), and a final value**243**.

The long multiplication is done this way. As I said before, at first you are doing a one-digit by one-digit multiplication at each step, which should not be difficult if you have memorized your one-digit times tables. So as you do the multiplication you are lining them up to their respective place values in advance.*Here is an example when there are higher place values for both digits*:

If you have something like a two-digit multiplied by a two-digit, such as 14x32, when you multiply the 3 in the ten's place by each single digit, those are multiples of 10. And when you do the 3x1, both are in the ten's place, so the 3 gets multiplied by two 10s for a multiple of 100 in the final value.

Hope this helps in better understanding and clears things up.(5 votes)

- What does intuitive mean ?(3 votes)
- I am very confused I realy need some help.If you help i will give you an up vote.Thank you.(3 votes)
- what do you need help with?(1 vote)

- what are the energy points for?(3 votes)
- getting badges and avatars.(1 vote)

## Video transcript

- [Instructor] In this video,
we're gonna think about how we can use our knowledge of multiplying single digit
numbers to multiply things that might involve two digits. So for example, let's start
with, what is five times 18? And you can pause the video
and see how you might try to approach this, and
then we'll do it together. All right, so if we're trying
to tackle five times 18, one strategy could be to
say, hey, can I re-express 18 as the product of two numbers? And the one that jumps
out at me is that 18 is the same thing as two times nine, and so I could rewrite five times 18. This is the same thing as five times, instead of 18, I
can write two times nine. Now, why does this help us? Well, instead of multiplying
the two times nine first to get the 18, and then
multiplying that by five, what we could do is we
could multiply the five times the two first. And you might be thinking,
wait, wait, wait, hold on a second. Before, you did the two times nine first, and now, you're telling me that you're going to change the order? That you're going to say, hey, let's multiply the five times
two first, is that okay? And the simple answer is, yes, it is okay. If you are multiplying
a string of numbers, you can do them in any
order that you choose, and so this is often known as the associative
property of multiplication. We can associate the
two with the nine first. We can multiply those first, or we can have an association
with the five and the two. We can multiply those two first. Now, why is that helpful? Well, what is five times two? Well, that's pretty straightforward. That's going to be equal to 10. So this is going to be equal to 10. We're doing that same color. 10 times nine. Now, 10 times nine is a
lot more straightforward for most of us than five times 18. 10 times nine is equal to 90. Let's do another example. Let's say we wanna figure
out what three times 21 is. Pause this video and see if
you can work through that. There's multiple ways to do it, but see if you can do it the way we just approached this first example. Well, as you could image,
we want to re-express 21 as the product of smaller numbers. So we could rewrite 21 as
three times seven maybe? And so if we rewrite it
as three times seven, and now, we do the
three times three first. So I'm just gonna put parenthesis
there, which we can do because the associative
property of multiplication. Fancy word for something that is hopefully a little bit intuitive. Well then, this is going to be equal to, what's three times three? It is nine, and then times seven,
which you may already know is equal to 63. Let's do another example. This is kinda fun. Let's say we wanna figure
out what 14 times five is. Pause this video and see
if you can figure that out. Well, we could once
again try to break up 14 into the product of smaller numbers. 14 is two times seven, so we can rewrite this as two times seven or as seven times two, and I'm writing it as seven times two, because I want to associate
the two with the five to get the 10 times five, and then I can multiply
the two times five first. And so this is going to
give us seven times 10, seven times 10, which is
of course equal to 70. One more example. Let's say we want to
calculate 15 times three. How would you tackle that? Well, we can break up 15
into five times three. Five times three, and then we can multiply that,
of course, by this three, and then we can multiply
the threes together first, and then this amounts to five times nine. And five times nine, you might already be familiar with this. This is going to be equal to 45. Another way to get to
45, you can say, hey, five times 10 is 50. So five times 9 is going
to be five less than that, which is also 45.