2 x 617 = 1234617 x 2 = 1234
As a product of its prime factors: 2*47 = 94
Divide it by each prime number which does not have remainder.
As a product of its prime factors: 3*3*13 = 117 or as 3^2*13 = 117
The prime factors are: 2 and 7. 2 x 7 = 14
According to the Fundamental Theorem of Arithmetic, there is only one way to write the prime factors of any integer which is greater than 1.
2 x 617 = 1234617 x 2 = 1234
I'm not sure what you mean. But the factorization of a composite number into prime factors is unique, up to the ordering of the primes.
As a product of its prime factors: 2*47 = 94
2 x 2 x 2 x 3 = 24 23 x 3 = 24
As a product of its prime factors: 2*47 = 94
As a product of its prime factors it is: 3*5 = 15 Or as: 1*15 = 15
two possible ways 1 and the other number or the number an 1
Divide it by each prime number which does not have remainder.
According to Wolfram Alpha, its prime factors are 11×79×2556067. (To get all of its factors, you can combine the prime factors in different ways.)
Three ways (I think).
24=2x2x2x3=22x2x3=23x3 if the order of the terms is not relevant if the order is relevant they you have to consider 2x2x3x2, 2x3x2x2, 3x2x2x2, 22x3x2 and so on