Because the Fundamental Theorem of Arithmetic specifies that every integer greater than 1 has its own unique prime factorization, it is impossible to specify what each of these prime factorizations is, however, it is true that the prime factorization of every even number includes the number 2 as the lowest prime factor.
2
All even numbers are multiples of 2, so they have 2 in their prime factorization. No odd numbers are divisible by 2, so no add number has 2 in its prime factorization.
There is no need to do prime factorization as prime numbers are already prime.
When all the factors are prime numbers, that's a prime factorization.
Prime factorization never includes a composite number. All numbers in prime factorization must be prime numbers.
2
All even numbers are multiples of 2, so they have 2 in their prime factorization. No odd numbers are divisible by 2, so no add number has 2 in its prime factorization.
There is no need to do prime factorization as prime numbers are already prime.
All composite numbers do. All prime numbers are already prime.
When all the factors are prime numbers, that's a prime factorization.
Prime factorization never includes a composite number. All numbers in prime factorization must be prime numbers.
1, 2, 4, 7, 8, 14, 16, 28, 56, 112 2 and 7 are prime.
That's the prime factorization.
Every member of that infinite list is different.
All the even numbers and all the odd multiples of 5.
The prime factorization of 462 is 2x3x7x11.