the prime factorization

That's a prime factorization.

The product of factors is called the product. The product of prime factors is called the prime factorization.

As a product of its prime factors in exponents: 22*32*5 = 180

The product of all the common prime factors is the GCF. The product of all common factors would vary according to the list.

The prime factors of 18 are 2, 3, and 3. The product of these prime factors is 18. The distinct prime factors of 18 are 2 and 3. The product of these distinct prime factors is 6.

It is simply the whole number written as the product of its prime factors. It is simply the whole number written as the product of its prime factors. It is simply the whole number written as the product of its prime factors. It is simply the whole number written as the product of its prime factors.

That's the prime factorization.

Multiply prime numbers or prime factors to find their product.

The product of the prime factors of 235 is 235. The product of the (not necessarily distinct) prime factors of any number is that number.

The product of the prime factors of 42 is 42.

37 is already prime. There is no product of prime factors for prime numbers.

the answer is prime factorization

The product of the prime factors of any number is equal to the number itself. Therefore, the product of the prime factors of 350 is 350.

The prime factorization of a number is writing it as a product of its prime factors.

The product of the prime factors of a number is the number itself.

As a product of its prime factors: 2*2*2*5 = 40 As a product of its prime factors: 2*2*2*7 = 56 As a product of its prime factors: 3*13 = 39

Its prime factors are 2 and 3 and as a product of its prime factors 2*2*2*3 = 184

The prime factorization.

As a product of its prime factors: 2*31 = 62

The product of the prime factors of 218 is 218. The prime factors of 218 are 2 and 109, making their product 2 x 109 = 218! I wouldn't expect it to be otherwise: the product of the prime factors of a number equal the number.

42 as a product of its prime factors is 2*3*7. 90 as a product of its prime factors is 2*3*3*5.

As a product of its prime factors: 5*11*41 = 2255

As a product if its prime factors: 2*2*5*5 = 100

They are: 2 and 31 and as a product of its prime factors 2*2*2*31 = 248

215 as the product of prime factors can be represented as 215 = 5x43

As a product of its prime factors in exponents: 24*34 = 1296

As a product of its prime factors: 3*7*7 = 147

As a product of its prime factors in exponents: 24*5 = 80

As a product of its prime factors: 3*7 = 21

As a product of its prime factors: 2*3*11 = 66

As a product of its prime factors: 2*2*5*29 = 580

As a product of its prime factors: 2*2*5*5 = 100

a prime is a prime A prime factorization

A prime factorization expresses an integer as a product of prime factors.

As a product of its prime factors: 19*61 = 1159

As a product of its prime factors: 5*113 = 565

As a product of its prime factors: 5*109 = 545

As a product of its prime factors: 2*2*17 = 68 As a product of its prime factors: 2*2*19 = 76 As a product of its prime factors: 2*2*23 = 92

The prime factors of 36 are 2, 2, 3, and 3, so their product is 36. The distinct prime factors of 36 are 2 and 3, so their product is 6.

That's asking for the prime factorization. Writing 60 as a product of its prime factors would be 2 x 2 x 3 x 5 = 60.

No, it cannot be written as the product of prime number as a prime number is a number having factors 1 and itself.

75 expressed as a product of its prime factors is 5 squared, and 3.

The product of the prime factors of any positive integer is equal to the integer itself.

21 as a product of its prime factors is 1 X 3 X 7.

Yes. Composite numbers can be written as the product of prime factors.

As a product of its prime factors: 3*5*7*11 = 1155

The product of the prime factors is 66. See: 2 * 3 * 11 = 66

As a product of its prime factors: 2*3*5*5 = 150