Study guides

Q: What is the fifth non-zero multiple of a number that is the LCM of 6 and 8?

Write your answer...

Submit

Related questions

Every nonzero number has multiples. Every set of nonzero numbers has an LCM.

It is a multiple, and possibly could be the LCM.

That's the least common multiple, or LCM.

The LCM is 2x.

That's the least common multiple, or LCM.

The LCM is the multiple.

All nonzero numbers have multiples. Any two numbers will have an infinite number of multiples in common. The smallest of these is known as the least common multiple, or LCM.

If one number is a multiple of another, then their LCM is the larger number.

lcm(2, 7) = 14 5th multiple is 5 x 14 = 70

It would help to have that other number. If the other number is a multiple of 3, the LCM is that number. If it is not a multiple of 3, the LCM is 3 times that number.

The LCM is the multiple.

Unless the other number is a multiple of 7, the LCM will be the product of the two. If the other number is a multiple of 7, the LCM will be the other number.

If the other number is a multiple of 5, it will be the LCM. If not, the LCM will be their product.

Yes, and of the composite number. LCM stands for Least Common Multiple. It's a multiple that's common to both of them.

The LCM is the one that is the multiple.

The LCM is the larger number.

The LCM is the greater number.

The LCM is the larger number.

The LCM is the larger number.

The LCM is the larger number.

Since 420 is a multiple of 15, it is automatically the LCM.

The least common multiple (LCM) refers to a multiple that is COMMON to two or more numbers. You have only one number in the question! The least multiple of a number is itself.

The least common multiple (LCM) refers to a multiple that is COMMON to two or more numbers. You have only one number in the question! The least multiple of a number is itself.

The least common multiple (LCM) refers to a multiple that is COMMON to two or more numbers. You have only one number in the question! The least multiple of a number is itself.