23 + 2
19 + 3 + 3
17 + 5 + 3
17 and 4 twos
17, 2 threes and 2 twos
13 + 7 + 5
13 and 6 twos
13 and 4 threes
11 and 2 sevens
11 and 7 twos
and a bunch more up to
10 twos and 5
11 twos and 3
Three distinct prime factors, eight total.
It would be 5 ways
Eight different ways.Eight different ways.Eight different ways.Eight different ways.
Not a lot. They're both prime numbers. A factor that is prime is used to make other numbers.
Multiply 9 by two different numbers (9 x a, and 9 x b). Make the two numbers, a and b, relatively prime. For example, one of them can be 1; or just choose two different prime numbers.
No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.No two prime numbers can make 30.
Three distinct prime factors, eight total.
2 and 17
prime numbers
Numbers cannot "make" another number prime. If you are looking for the prime factorization of 56, it is 23 * 7.
It would be 5 ways
i think prime numbers
The question does not make sense. There are not 500 prime numbers but infinitely many!
Bigger numbers make bigger factor trees, and of course there are prime numbers which cant be factored at all
Eight different ways.Eight different ways.Eight different ways.Eight different ways.
The concepts of "prime numbers" and "composite numbers" make sense for integers (whole numbers), not for arbitrary real numbers.
prime numbers