Every composite number has its own unique prime factorization.
91 cannot be in the prime factorization of any number because it is not a prime number itself.
The prime factorization of 97 is 97 itself, as it is a prime number and cannot be divided evenly by any other numbers. Therefore, there is no prime factorization tree for the number 97.
Prime factorization never includes a composite number. All numbers in prime factorization must be prime numbers.
Yes. Any prime number greater than 100 has only itself in its prime factorization. Examples: The prime factorization of 101 is 101. The prime factorization of 109 is 109. The prime factorization of 127 is 127. The prime factorization of 311 is 311. The prime factorization of 691 is 691.
Any of the prime numbers will fit this description
I THINK... you see if it can be either multiplied or divided by any other number but 1, and if you can divide or multiply by any other number it is composite, if it cant be divided or multiplied, it is prime...
1 is not a prime number, so it wouldn't be present in any prime factorization. Prime numbers don't really have factorizations, that is, the factorization is the number itself. There are prime numbers greater than 100.
Any number that isn't prime.
Any power of 2
Prime factorization is the result of expressing a number as the product of its prime factors. It will assist you in finding the GCF and LCM of any given number set.
Since the number 10 has the prime factorization of 2 x 5, any multiple of 10 has the numbers 2 and 5 in their prime factorization.
Any prime number raised to a power.