1.1111
109, like any integer, can be written as a fraction in simplest form by putting it over 1.
109 is a prime number, therefore the only numbers that can be divided into 109 are:1 and 109."A positive integer that is not divisible without remainder by any integer except itself and 1, with 1 often excluded:The integers 2, 3, 5, and 7 are prime numbers. "-Dictionary.com definition for "prime number".
109 is an integer and not a fraction. However, it can be expressed in rational form as 109/1. You can then calculate equivalent rational fractions if you multiply both, its numerator and denominator, by any non-zero integer.
The positive integer factors of 218 are: 1, 2, 109, 218
The positive integer factors of 981 are: 1, 3, 9, 109, 327, 981
The answer is 9*9!/9*109 = 0.0003629 approx.
The positive integer factors of 8938 are: 1, 2, 41, 82, 109, 218, 4469, 8938
The answer is 1308. The trick is to notice that (12)(9)=108 which differs from 109 by only one. Now just consider the set of equivalence classes in Nmod12. the LCM of 109 and 12 will be apart of the equivalence class 0, so for every integer n between 1 and 12, (n)(109) is apart of the equivalence class n. In conclusion, the LCM must be the product (12)(109).
The positive integer factors of 1962 are: 1, 2, 3, 6, 9, 18, 109, 218, 327, 654, 981, 1962
218 is an integer and not a fraction. However, it can be expressed in rational form as 218/1.
As an even number greater than 2, 218 is divisible by 2 and therefore composite. Its positive integer factors are: 1, 2, 109, 218
109 and 1 is the only factor pair for 109.