Yes, 9 can be expressed as a product of prime numbers. It can be factored into (3 \times 3) or (3^2), since 3 is a prime number. Thus, the prime factorization of 9 is (3^2).
81 is not a prime number, it is the product of 9 X 9.
9 = 3 x 3
The sum of 54 and 63 is 117. This can be expressed as the product of 9 and 13, where 9 and 13 are relatively prime addends. Therefore, 54 + 63 = 9 × 13.
9 times 9=2*8+51 the factor is 3
The product of two prime numbers can never be another prime number, the numbers that you multiplied are factors of the product. (example, 9 times 5 is 45, 9 and 5 go into 45)
Yes, 9 can be expressed as a product of prime numbers. It can be factored into (3 \times 3) or (3^2), since 3 is a prime number. Thus, the prime factorization of 9 is (3^2).
81 is not a prime number, it is the product of 9 X 9.
9 = 3 x 3
The sum of 54 and 63 is 117. This can be expressed as the product of 9 and 13, where 9 and 13 are relatively prime addends. Therefore, 54 + 63 = 9 × 13.
9 times 9=2*8+51 the factor is 3
207 is a multiple of 9; perhaps you can continue from there.
The answer is -16.
no if you multiply two primes for example 7x9=63 63 is not prime because 9 and 7 go into it
The only factors of -9 are -1 & 9, 3 & -3 and 1 & -9. None of these sum to 22.
what is the prime product of 490
72 = 8 x 9 = 23 x 32