Cryptography : Hash collision Probability [closed]

I want know where this equation came from:

Hash collision Probability = 2^-n = 1/2^n

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Hi Mustafa, and welcome. Please note that StackOverflow is for programming questions only. Use crypto.stackoverflow.com, after trying to look on the web and the site itself first, of course. –  owlstead Aug 2 '12 at 21:58

closed as off topic by owlstead, GregS, Druid, WillAug 3 '12 at 14:17

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If hash has n bits and is divided equally then that is the chance.

of course that is only true for 2 random hashes. if you are able to select those two hashes somehow , or select more hashes then the propability will be higher. (see Birthday Paradox)

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thanks for reply , is there any book or site explain how can i derivative this equation? –  Mustafa Aug 2 '12 at 11:36
it is basic propability calculation. if you have an N-bit string and throw a coin N times, then you have a propability of 0.5^N of getting the same string. –  Markus Mikkolainen Aug 2 '12 at 11:38
thank you for help.. –  Mustafa Aug 2 '12 at 11:48

That is the probability of two randomly created n-bit strings being equal.

For every bit, you have a 50% chance of the two strings having the same value (both 0 or both 1), so for two bits, it is 25%, for three 12.5%, and so on, halving for every bit added.

Cryptographic hashes are supposed to produce a sequence of numbers that cannot be distinguished from random numbers, so there is the connection to hash collisions.

Note that this extremely low probability is for two given string being equal, or for the chance to randomly recreate a given string. There is also the birthday paradox, which shows that the possibility of any two strings being equal in a large set of strings is much higher.

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thanks for reply , is there any book or site explain how can i derivative this equation? –  Mustafa Aug 2 '12 at 11:35
That is Statistics 101, really. My second paragraph is the simplest explanation I could come up with. –  Thilo Aug 2 '12 at 11:36
thank you for help. –  Mustafa Aug 2 '12 at 11:48