Any positive number can be a GCF. But for each separate set of numbers, there can only be one.
This is an impossible set of numbers. If the LCM was 36, and the GCF was 3, then the numbers would be 6X6.
The set of numbers given are not suited for this since 9 and 35 are co-prime so that the GCF of the given set of numbers is 1. Using a GCF of 1 does not help.
The greatest common factor, or GCF, is the largest positive integer that will divide evenly with no remainder into all the members of a given set of numbers. The GCF of 6 and 9 is 3.
The only factor that all of these numbers share is 1 since 3 and 5 are prime. So 1 is the gcf of this set of numbers.
The LCM will never be less than the GCF of a set of numbers.
The LCM of two numbers will never be less than the GCF.
The GCF is 8.
The GCF is 10.
The GCF of that set is 1.
The GCF of 18, 20, and 26 is 2. The GCF of a set of numbers can't be any larger than the smallest difference between the numbers. The smallest difference within this set of numbers is 2. Since all of the numbers in the set are even, 2 is the greatest common factor.
Any positive number can be a GCF. But for each separate set of numbers, there can only be one.
This is an impossible set of numbers. If the LCM was 36, and the GCF was 3, then the numbers would be 6X6.
Any set of odd numbers, yes.
It can be. Consecutive integers have a GCF of 1.
There's a lot of possibilities. Any set of consecutive even numbers has a GCF of 2.
The GCF of 120, 150, and 180 is 30. The GCF of a set can't be larger than the smallest difference between numbers in the set, which, in this case, is 30. Since 30 is a factor of all of the numbers of the set, it is the GCF.