9, 18, 27, 36, 45, 54, 63, 72, 81, 90, 99, 108, 117, 126, 135, 144, 153, 162, 171, 180, 189, . . .
The numbers 3,6 and 9 are all multiples of 3 because 3 can go into all of them evenly.
To find the multiples of 9 up to 9000, you can use the formula: (9 \times n), where (n) is a positive integer. The first few multiples of 9 are 9, 18, 27, 36, and so on. To find the multiples of 9 up to 9000, divide 9000 by 9, which equals 1000. Therefore, the multiples of 9 up to 9000 are all the multiples of 9 from 9 to 9000, inclusive.
Multiples of 50 are the only numbers that are both. All other multiples of 5 aren't.
They are multiples of 1, 3 and 9.
90. All numbers that are multiples of 3, 5 & 9 are multiples of their lowest common multiple lcm(3, 5, 9) = 45 → multiples of 45 between 49 and 95 is 2 x 45 = 90.
First of all unless you go into decimals, there are only three multiples of 9 and they are 1,3,and 9.
Just 72. It was found by multiplying 8 and 9. --------------------------------------- The common multiples of two numbers are the multiples of their lowest common multiple. LCM(8, 9) = 72 The common multiples of 8 and 9 are 72, 144, 216, ... The only common multiples less than 100 are 72 only.
Well, honey, let me break it down for you. No, not all multiples of 9 are multiples of 6. See, multiples of 9 are numbers like 9, 18, 27, and so on, while multiples of 6 are numbers like 6, 12, 18, and so forth. So, while 18 is both a multiple of 9 and 6, not all multiples of 9 will be multiples of 6. Hope that clears things up for ya!
Common multiples of 9 and 10 are all of the multiples of 90.
Yes, all multiples of 9 are also multiples of 3.but they're not all of them. Every multiple of 9 is also a multiple of 3, but there are more multiples of 3 besides those.
1, 9, and 81 are the only multiples of 81
All multiples of 18 are divisible by 9. Not all multiples of 9 are divisible by 18.
There are infinitely many multiples of 9 and it is not possible to add them all.
yes since 9 is divisible by 3 all its multiples are as well
18 and all the multiples of 18.
They're all multiples of 9.
This question is true