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I am trying to find the possible values of this expression.

(a mod 2*x)-(a mod x)

I suspect they might be 0 or x, but I'm really not sure. I can't seem to be able to write down a proper argument.

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closed as off topic by Will Feb 13 '13 at 15:52

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math.stackexchange.com ? –  Dukeling Feb 12 '13 at 6:52
    
Agreed that math.se is the place to go. And yes, the possible values are 0 and x, assuming a and x are both positive. –  DocMax Feb 12 '13 at 6:57
    
But could you tell me why? –  user1377000 Feb 12 '13 at 7:00
    
Sure. Let a have the form a = p*x + b. Then a mod x is b and a mod 2*x is b if p = 2*r (a = 2*r*x + b = (2*x)*r + b) and x+b if p = 2*r + 1 (a = (2*r + 1)*x + b = 2*r*x + x + b = (2*x)*r + x + b. Thus the difference is either b - b = 0 or (x + b) - b = x. –  DocMax Feb 12 '13 at 7:06
    
Great, thank you! –  user1377000 Feb 12 '13 at 7:25

1 Answer 1

up vote 1 down vote accepted

You are correct that the possible values are 0 and x, assuming that both a and x are positive. The logic is as follows.

Let a have the form

a = p*x + b

Then it is easy to see that a mod x = b.

For a mod 2*x, if p = 2*r (p is even) then

a = 2*r*x + b = (2*x)*r + b

so that a mod 2*x = b and p = 2*r + 1 (p is odd) then

a = (2*r + 1)*x + b = 2*r*x + x + b = (2*x)*r + x + b

so that a mod 2*x = x + b. Combining these results, the difference is either b - b = 0 (when p is even) or (x + b) - b = x (when p is odd).

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