Use a factor tree.
55
5,11
To find the prime factorization of a number, start with any factor pair of that number and keep factoring the composite numbers until all factors are prime. 55 5 x 11 = 55 Both factors are prime, so that is the prime factorization.
11
The factors of 22 are 1, 2, 11, and 22. The factors of 55 are 1, 5, 11, and 55. The common factors are 1 and 11. Therefore, the greatest common factor is 11. The greatest common factor can also be find by determining the prime factors and multiplying the common prime factors together. The prime factors of 22 are 2 and 11. The prime factors of 55 are 5 and 11. The common prime factors are a single 11, so the greatest common factor is 11.
by prime factor we can have the answer 1, 5, 11, 55 55=1,5,11,55
83 is prime. No tree. 55 5,11
The greatest common factor of 55 and 77 is 11. The prime factorization of 55 is 5*11. The prime factorization of 77 is 7*11. The greatest common factor is 11.
uhmmm the answer , is 5,11
The greatest common factor (GCF) of 33, 44, and 55 is 11. To find the GCF, you can first find the prime factors of each number: 33 = 3 x 11, 44 = 2 x 2 x 11, and 55 = 5 x 11. Then, identify the common prime factors among the numbers, which in this case is 11. The highest power of the common prime factor is 11, making it the greatest common factor.
Yes, 55 and 62 are relatively prime because they have no common factor greater than 1.
Any of its factorrs which are: 1, 5, 11 and 55
One way to determine the greatest common factor is to find all the factors of the numbers and compare them. The factors of 20 are 1, 2, 4, 5, 10, and 20. The factors of 55 are 1, 5, 11, and 55. The common factors are 1 and 5. Therefore, the greatest common factor is 5. The greatest common factor can also be calculated by identifying the common prime factors and multiplying them together. The prime factors of 20 are 2, 2, and 5. The prime factors of 55 are 5 and 11. The prime factors in common are a single 5, so the greatest common factor is 5.
55 = 5*11