The common multiples of 8 and 9 are numbers that are divisible by both 8 and 9. To find the common multiples, you can list out the multiples of each number and identify the numbers that appear in both lists. The common multiples of 8 and 9 include 72, 144, 216, and so on, as these numbers are divisible by both 8 and 9.
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Oh, isn't that just lovely? Common multiples are like happy little friends that both 8 and 9 can share. When we look at the multiples of 8 (8, 16, 24, 32...) and 9 (9, 18, 27, 36...), we find that their common multiples are numbers like 72, 144, 216, and so on. Just imagine all those multiples dancing together on a canvas of numbers!
Oh, dude, common multiples of 8 and 9? That's like asking me to pick between Pizza and tacos - tough choice! Anyway, the common multiples of 8 and 9 are numbers that both 8 and 9 can divide into evenly. So, the first few common multiples would be 72, 144, 216, and so on. Like, it's just a matter of multiplying those two numbers and seeing what you get.
The common multiple of 8 and 9 are the infinite set of multiples of their least common multiple, which is 72. So the set starts 72, 144, 216, 288, 360, 432, 504, 576, 648, 720, and so on.
Common Multiples of 8:8,16,24,32,40,48,56,64,72,80,88 and 96 Common Multiples of 12:12,24,36,48,60,72,84 and 96
Just 49
To find a number that is not a common multiple of 4 and 9, we need to consider the multiples of each number. The multiples of 4 are 4, 8, 12, 16, 20, 24, ... and the multiples of 9 are 9, 18, 27, 36, 45, ... The first number in the list of multiples of 4 that is not a multiple of 9 is 4. Therefore, 4 is a number that is not a common multiple of 4 and 9.
The common multiples of 9 and 11 are 99, 198, 297 and so on.
common multiples of 45 are 9 and 5 and common multiples of 8 are 4 and 8. This person doesn't know what common multiple is. (up) New author: You have to find if it is the LCM or the MCM, Least common multiple is 360 New author: MCM can't exist, it is no point finding it. Every MCM of multiple numbers are always infinity