answersLogoWhite

0


Best Answer

The GCF (Greatest Common Factor) of 39 and 65 is 13!

39:1,3,13,39

65:1,5,13,65

User Avatar

Wiki User

14y ago
This answer is:
User Avatar

Add your answer:

Earn +20 pts
Q: Greatest common multiple of 39 and 65?
Write your answer...
Submit
Still have questions?
magnify glass
imp
Related questions

What is the greatest common factor of 39 65 and 182?

The Greatest Common Factor of 39, 65 and 182 is 13.


What is the greatest common multiple of 30 and 65?

The greatest common multiple of any set of integers is infinite.


What is the least common multiple of 39 and 65?

195


What is the LCM of 39 and 52 and 65?

The Least Common Multiple (LCM) for 39 52 65 is 780.


What is the greatest common factor of 39 52 and 65?

The GCF of 39, 52, and 65 is 13The GCF is 13.


What is the greatest common factor of 39 and 65?

The GCF of 39 and 65 is 13. One way to determine the greatest common factor is to find all the factors of the numbers and compare them. The factors of 39 are 1, 3, 13, and 39. The factors of 65 are 1, 5, 13, and 65. The common factors are 1 and 13. Therefore, the greatest common factor is 13. The greatest common factor can also be calculated by identifying the common prime factors and multiplying them together. The prime factors of 39 are 3 and 13. The prime factors of 65 are 5 and 13. The prime factors in common are a single 13, so the greatest common factor is 13.


What it the greatest common factor of 39 65 13?

13


What is the greatest common factor of 13 and 39 and 65?

It is 13


What is the greatest common factor of 39 65 128?

The GCF is 1.


What is the greatest common factor of 39 65 and 91?

The GCF is 13.


What is the greatest common factor between 39 and 65?

The GCF is 13.


What is the greatest common multiple of 26 39 65 and 78?

There is really no such thing as a "greatest common multiple". Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.