# How Does Modulus Divison Work

I don't really understand how modulus division works. I was calculating `27 % 16` and wound up with `11` and I don't understand why.

I can't seem to find an explanation in layman's terms online. Can someone elaborate on a very high level as to what's going on here?

EDIT: Thanks for all your answers. You guys are incredibly quick. It all makes sense now.

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The result of a modulo division is the remainder of an integer division of the given numbers.

That means:

``````27 / 16 = 1, remainder 11
=> 27 mod 16 = 11
``````

Other examples:

``````30 / 3 = 10, remainder 0
=> 30 mod 3 = 0

35 / 3 = 11, remainder 2
=> 35 mod 3 = 2
``````
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Answered first by a small margin have to mark yours as the answer... Thanks. EDIT: Got to wait ~9 minutes. –  NSWOA Apr 18 '10 at 22:49

Most explanations leave one important step.
Let's fill the gap using another example:
16 % 6 = 4
And 16 / 6 = 2
Then you multiply the result of your division with 6:
2 * 6 = 12
Now you will subtract 16 - 12 = 4
The answer - number 4 is the reminder, the same number as the result of modulus division.
You get the same with: 16 % 6 = 4.

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Maybe the example with an clock could help you understand the modulo.

A familiar use of modular arithmetic is its use in the 12-hour clock, in which the day is divided into two 12 hour periods.

Lets say we have currently this time: 15:00
But you could also say it is 3 pm

This is exactly what modulo does:

``````15 / 12 = 1, remainder 3
``````

You find this example better explained on wikipedia: Wikipedia Modulo Article

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The simple formula for calculating modulus is :-

``````[Dividend-{(Dividend/Divisor)*Divisor}]
``````

So, 27 % 16 :-

27- {(27/16)*16}

27-{1*16}

Note:

All calculations are with integers. In case of a decimal quotient, the part after the decimal is to be ignored/truncated.

eg: 27/16= 1.6875 is to be taken as just 1 in the above mentioned formula. 0.6875 is ignored.

Compilers of computer languages treat an integer with decimal part the same way (by truncating after the decimal) as well

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+1 for being the only person to correctly define modulus here. As for the others, well, I'm sorry to say that modulus is not just the remainder of division, and that the result of 27/16 is = 1.6875, not 11, like so many incorrectly stated (skipping steps). –  Stop forgetting my accounts... Sep 21 '13 at 2:31

modulus division is simply this : divide two numbers and return the remainder only

27 / 16 = 1 with 11 left over, therefore 27 % 16 = 11

ditto 43 / 16 = 2 with 11 left over so 43 % 16 = 11 too

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Very simple: `a % b` is defined as the remainder of the division of `a` by `b`.

See the wikipedia article for more examples.

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the modulus operator takes a division statement and returns whatever is left over from that calculation, the "remaining" data, so to speak. Such as 13 / 5 = 2. Which means, there is 3 left over, or remaining from that calculation. Why? because 2 * 5 = 10. Thus, 13 - 10 = 3.

The modulus operator does all that calculation for you, 12 % 5 = 3.

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Modulus division gives you the remainder of a division, rather than the quotient.

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It's simple, Modulus operator(%) returns remainder after integer division. Let's take the example of your question. How 27 % 16 = 11? When you simply divide 27 by 16 i.e (27/16) then you get remainder as 11, and that is why your answer is 11.

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Lets say you have 17 mod 6.

what total of 6 will get you the closest to 17, it will be 12 because if you go over 12 you will have 18 which is more that the question of 17 mod 6. You will then take 12 and minus from 17 which will give you your answer, in this case 5.

17 mod 6=5

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Easyer when your number after the dot (0.xxx) is short and then all you need to do is multiply that number with the number after the division.

Ex: 32 % 12 = 8

You do 32/12=2.666666667 Then you leave the full 2 away and focus on the 0.666666667 0.666666667*12=8 <-- That's your answer.

(again, only easy when the number after the dot is short)

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I was a bit confused by this too and this video was pretty helpful!

step1; `20/3=6`do not include the `.6667`just ignored step2; `3*6=18` step3; `20-18=2` which is the reminder
I am wondering why this `3 % 5 = 3` is missed , in general x % y= x ,when x < y