Some prime factorizations have repeated factors. The prime factorization of 72 is 2 x 2 x 2 x 3 x 3. The distinct prime factors of 72 are 2 and 3.
16=2*2*2*2 There is only one distinct prime factor, that is 2.
34 has one distinct prime factor.
The total number of integers that are multiples of both 8 and 21 is infinite. The first few are these: 168, 336, 504, 672, 840 . . .
49 has one distinct prime factor, two altogether.
Yes.
The difference is one.
Prime numbers have one distinct prime factor.
A factor rainbow is a method to determine a prime factorization.
Distinct prime factors are the prime factors that are distinct (or different) from each other. A list of distinct prime factors is a list of one of each different prime number that is a factor. For example, the prime factors of 8 are 2, 2, and 2. The only distinct prime factor is 2, which occurs multiple times.
Not a lot. They're both prime numbers. A factor that is prime is used to make other numbers.
16=2*2*2*2 There is only one distinct prime factor, that is 2.
No, 12 is not a prime number.
Find the prime factorization. Identify the distinct prime factors. Add them up.
Prime factors are factors that are prime. For example, 13 is a prime number and 13 is a factor of 26. So that means 13 is a prime factor.
The GCF isn't always prime.
34 has one distinct prime factor.
All numbers have factors. Some factors are prime numbers, some are not.