123 written as a product of prime factors is: 123 = 3 X 41.
123 3,41 3 x 41 = 123
3 x 41 = 123
What is the product of th e prime factor 344
A prime factorization expresses an integer as a product of prime factors.
No. By definition, the product has a proper factor - the prime.
3 and 41
express 5610 as the product of prime factors
1 is not prime, so it can't be a prime factor.
As a product of its prime factors: 7*19*31 = 4123
As a product of its prime factors: 2*47 = 94
47 as a product of prime factors is: 47. [47 is a prime number, so it only has itself as a prime factor - note 1 is NOT a prime number.]
Its prime factor is 2 and as a product of its prime factor 2 to the power of 7 = 128
write the number 14as a product of prime factor?
As a product of its prime factors: 3*3*7 = 63
As a product of its prime factors: 2*3*5 = 30
A prime number has only one prime factor, and that prime factor is the number itself.
The 4 factors of 123 are 1, 3, 41, and 123.The factor pairs of 123 are 1 x 123 and 3 x 41.The proper factors of 123 are 1, 3, and 41 or,if the definition you are using excludes 1, they are 3 and 41.The prime factors of 123 are 3 and 41.The distinct prime factors of 123 are, since there is no repetition of prime factors, also 3 and 41.The prime factorization of 123 are 3 x 41.
If you are talking about the number itself, they can be the same. To be specific: A prime number is a number that only has the factors 1 and itself. A factor is a number that when multiplied creates a product. A prime factor is a prime number that is multiplied to create a product.
It is: 3771113 = 21021
the prime factorization
7 is already prime. It has no factorization.