9 and 6 have an LCM of 18 and a GCF of 3.
The LCM of a set of numbers will never be less than the GCF.
The LCM of a set of numbers will never be less than the GCF.
Only if they're the same number. The LCM and GCF of 10 and 10 is 10.
The product of the original numbers is equal to the product of the GCF and LCM. Divide the product of the LCM and GCF by the one number. The answer will be the other.
The GCF is the factor, the LCM is the other one.
You need at least two numbers to find a GCF or an LCM and the LCM of those numbers can never be less than the GCF. 12 and 360 have a GCF of 12 and an LCM of 360. So do 60 and 72.
The pair of numbers 16 and 160 has a GCF of 16 and an LCM of 160.
Only if they're the same number. The LCM and GCF of 10 and 10 is 10.
The product of the GCF and LCM of a pair of numbers is equal to the product of the numbers.
The LCM of two numbers will never be less than the GCF.
Yes, if you're comparing a number to itself. The GCF and LCM of 10 and 10 is 10.
The LCM will never be less than the GCF of a set of numbers.