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Since there are n variables wouldn't there be 2^n boolean functions?

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closed as not constructive by leepowers, WATTO Studios, Yan Berk, DCoder, Andro Selva Sep 28 '12 at 4:59

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Are you asking this during your exam? – McGarnagle Sep 26 '12 at 22:07
no its an assignment question. – ganlaw Sep 26 '12 at 22:10

For an n-ary boolean function, there are 2^n possible boolean inputs. Each input can generate either "true" or "false" as the output. How many different ways can you arrange the 2^n true vs. false outputs?

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I'd suggest writing out all the possibilities for n=1, n=2, and especially n=3, until the pattern becomes clear. Don't want to say more than that, since it seems to be homework... – Jim Lewis Sep 26 '12 at 22:33
if n = 3 then there are 8 possible boolean inputs which is 2^3, and you can arrange the true or false 2 different ways for the output. so there are 2^(n+1) boolean functions – ganlaw Sep 26 '12 at 22:45
@Newf: For the 2^3 possible inputs, one function might give outputs [F,F,F,F,F,F,F,F]. Another function might give [F,F,F,F,F,F,F,T]. Yet another might give [F,F,F,F,F,F,T,F]. 2^(3+1) = 2^4 = 16 is too small to cover all the possibilities. – Jim Lewis Sep 26 '12 at 23:22

If there are p possibilities for choice 1 and q possibilities for choice 2 then there are a total of p*q different ways of doing both.

It is trivial that this can be extended to n choices.

So, yeah, there would be 2^n boolean functions (as for each choice there are two alternatives).

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I sure hope I understood the question correctly. – Johan Sep 26 '12 at 22:29
You've calculated the number of possible inputs to a single n-ary boolean function, not the number of possible functions. – Jim Lewis Sep 26 '12 at 22:34
Well, then I didn't understand the question, how embarrassing. – Johan Sep 26 '12 at 22:40

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