97 is already prime. It doesn't need a factorization.
Itself and one because 97 is a prime number
Prime factorization of 368 = 2 * 2 * 2 * 2 * 23.
Oh, what a delightful question! Let's break it down together. The prime factorization of 63 is 3 x 3 x 7, and the prime factorization of 91 is 7 x 13. Isn't it wonderful how numbers can be like little puzzles waiting to be solved? Just remember, there's no rush in understanding these beautiful mathematical patterns.
the only prime factors or 97 is 1 and 97... therefore 97 is a prime number... using exponents --> 11 * 971 = 97
97 is prime, its only factors are one and 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.
factorization of 97 is 1 x 97 it is prime.
97 is a prime number.
97 is a prime number.
97 is a prime number. Thus its prime factorisation is itself: 97. (1 is NOT a prime number.)
97 is already prime; no tree required.
194 2 x 97 Since both 2 and 97 are prime numbers, the prime factorization tree is complete.
1,843 = 19*97
1, 5, 97, and 485. The prime factorization is 5 x 97.
291 = 3 x 97
679 = 7 x 97
As a product of its prime factors it is: 2*2*31*97 = 12028 or as 22*31*97 = 12028