This might be more Math related than C#, but I need a C# solution so I'm putting it here.

My question is about the probability of random number generators, more specifically if each possible value is returned with an equal probability.

I know there is the Random.Next(int, int) method which returns a number between the first integer and last (with the last being exclusive).

`Random.Next()`

[without overloads] will return a value between 0 and Int32.MaxValue (which is 2147483647) - 1, so 2147483646.

If I want a value between 1 and 10, I could call `Random.Next(1, 11)`

to do this, however does every value between 1 and 10 have an equal probability of occuring?

For example, the range is 10, so 2147483646 is not perfectly divisible by 10, so the values 1-6 have a slightly higher probability of occuring (because `2147483646 % 10 = 6`

). This is of course assuming that every value within `Random.Next()`

[without overloads] returns a value between 0 and 2147483646 with equal probability.

How would one ensure that every number within a range has an equal probability of occuring? Let's say for a lottery type system where it would be unfair for some people to have a higher probility than others, I'm not saying I would use the C# built in RNG for this, I was just using it as an example.

`Random`

is not the object to use if you want a Uniform number distribution, because the value returned is necesarily going to be random (or pseudo-random in this case). A sequence of 1,1,1,1,1,1 is entirely possible with a random number generator. In fact, every time you called it, it could always be 1, even though that would be unlikely. – Tejs Apr 16 '12 at 17:35