1.81 = 10*18.1
1.81 = 1*1.81
The number of different ways you can write a number as a product of two whole numbers depends on the number itself and its factors. For example, if the number is a prime number, it can only be written as a product of itself and 1. If the number is a composite number, it can be written in multiple ways based on its prime factors.
5x7 and 35x1
To write a number as a product in multiple ways, one would first need to know the factors of the number; more than likely, this is precisely the point of the exercise at hand. For example, the factors of 24 are {1,2,3,4,6,8,12,24}. Thus, the number 24 could be rendered as any of the following expressions:1 x 242 x 123 x 84 x 6
39!
u can write it as a mixed number or a whole number
12 can be written as 3 x 4 or 2 x 6
The number of different ways you can write a number as a product of two whole numbers depends on the number itself and its factors. For example, if the number is a prime number, it can only be written as a product of itself and 1. If the number is a composite number, it can be written in multiple ways based on its prime factors.
write the product of 117 two different ways
25x3 and 15x5
50*1
5x7 and 35x1
As a product of its prime factors: 2*47 = 94
To write a number as a product in multiple ways, one would first need to know the factors of the number; more than likely, this is precisely the point of the exercise at hand. For example, the factors of 24 are {1,2,3,4,6,8,12,24}. Thus, the number 24 could be rendered as any of the following expressions:1 x 242 x 123 x 84 x 6
you can write that answer a thousand million ways!
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.
The product of 9 and m
39!