If your number N is equal to N = w*x*y*z, then you could also write it as N = a*y*z, where a = w*x.
1 * 37 * 3 can be written as 37 * 3.
32 x 43
If the GCF of a given pair of numbers is 1, the LCM will be equal to their product. If the GCF is greater than 1, the LCM will be less than their product. Or, stated another way, if the two numbers have no common prime factors, their LCM will be their product.
give an example of two fractions whose product equals 1
When they are co-prime. That is, when they do not have a common factor (other than 1).
62 has two prime factors: 2 and 31. It doesn't matter where you write them on the page.
The LCM is their product. The LCM of 27 and 35 is 945.
As a product of its prime factors it is: 3*5 = 15 Or as: 1*15 = 15
Is sometimes possible, but not always.
a-n = 1/an = (1/a) x .... x (1/a), this last product having n factors, each is 1/a
Two numbers are factors of a product when they multiply with each other to become the product. For example, if the product number is 10, then our factors can be 2 and 5, or 1 and 10.
1 and 23
1 and 2
The factors are greater than the product.
The factors of 169 are 1, 13, and 169, and the prime factors are 13 x 13. 169 is the product of 1 x 169 or of the prime factors 13 x 13.
What is the question ? -- Total number of zeros in the factors ? . . . 15 -- Write the factors in scientific form ? . . . (1 x 107) x (1 x 108) -- Write the product in scientific form ? . . . (1 x 1015) -- Order of magnitude of the product ? . . . 15 -- Natural logarithm of the product ? . . . 34.5388 (rounded) -- Square root of the product ? . . . 3.1623 x 107 (rounded) -- How many times does the product go into 1 googol ? . . . 1 x 1085 -- Number of bits required to write the product in binary ? . . . 50
1 and 49 7 and 7
Their product.
1 and 9.