No prime power exists since there are no duplicate prime numbers in the prime factorization.
14 = 21 x 71
It is: 2*7 = 14 and no exponents are needed
2 x 43 = 862 x 7 x 11 = 154The GCF is 2.
If your asking what is the prime factorization of 14: 2 times 7
Using any of various methods, the gcf(14,35) is 7.
The GCF of 14, 31, 39, and 56 is 1. One way to solve the problem is to notice that 31 is prime, and can't possibly be a factor of 14, which is smaller.If you prefer, you can write the prime factorization of each number in the set and find the GCF:The prime factorization of 14 is 2*7The prime factorization of 31 is 31 (1*31)The prime factorization of 39 is 3*39The prime factorization of 56 is 2*2*2*7So the GCF is 1.
No prime power exists since there are no duplicate prime numbers in the prime factorization.
That appears to be a little backwards. It makes more sense to find the GCF of 56 and 154 using prime factorization. 2 x 2 x 2 x 7 = 56 2 x 7 x 11 = 154 2 x 7 = 14, the GCF
It is: 21*71 = 14
14 = 21 x 71
2 x 2 x 2 x 7 = 562 x 7 x 11 = 1542 x 7 = 14, the GCF
It is: 2*7 = 14 and no exponents are needed
2 x 43 = 862 x 7 x 11 = 154The GCF is 2.
2 x 7 = 14 3 x 7 = 21 2 x 2 x 19 = 76 No prime factors in common, the GCF is 1.
If your asking what is the prime factorization of 14: 2 times 7
it is 14