Simple formula for the n -ary version of ( x , y ) &#x21A6;<!-- ↦ -->

Poftethef9t

Poftethef9t

Answered question

2022-06-19

Simple formula for the n-ary version of ( x , y ) x + y 1 x y
Let x y = x + y 1 x y . I want a single formula for x 1 x 2 x n , for all natural n.
In order to generate plausible candidates, let's see what happens at small values of n:
x 1 x 2 x 3 = x 1 + x 2 + x 3 x 1 x 2 x 3 1 x 1 x 2 x 1 x 3 x 2 x 3
x 1 x 2 x 3 x 4 = x 1 + x 2 + x 3 + x 4 x 1 x 2 x 3 x 1 x 2 x 4 x 1 x 3 x 4 x 2 x 3 x 4 1 x 1 x 2 x 1 x 3 x 1 x 4 x 2 x 3 x 2 x 4 x 3 x 4 + x 1 x 2 x 3 x 4
Then I conjecture the following:
x 1 x 2 x n = I T 1 i I x i I T 3 i I x i I T 0 i I x i I T 2 i I x i
Where T k = { I ( { 1 , 2 n } ) : k | I | ( mod 4 ) }
Is there a nice proof of the above not involving transcendental functions?

Answer & Explanation

Nia Molina

Nia Molina

Beginner2022-06-20Added 21 answers

Expanding on my comment...
Suppose all the x j are real. We proceed by induction. We write ( t ) to represent the ratio of the imaginary to real parts of the complex number t. Then
x 1 = ( ( 1 + i x 1 ) ) = x 1  and  x 1 x 2 = ( ( 1 + i x 1 ) ( 1 + i x 2 ) ) = x 1 + x 2 1 x 1 x 2 ,
establishing the result for the smallest allowed n. (Actually, I've assumed this is what you want for n = 1, since you didn't specify.) Suppose now n > 2 and j = 1 n 1 x j = ( j = 1 n 1 ( 1 + i x j ) ) . Then
( j = 1 n ( 1 + i x j ) ) = ( ( 1 + i x n ) j = 1 n 1 ( 1 + i x j ) ) ( ( 1 + i x n ) j = 1 n 1 ( 1 + i x j ) ) = ( j = 1 n 1 ( 1 + i x j ) ) + x n ( j = 1 n 1 ( 1 + i x j ) ) ( j = 1 n 1 ( 1 + i x j ) ) x n ( j = 1 n 1 ( 1 + i x j ) ) = ( j = 1 n 1 ( 1 + i x j ) ) + x n 1 x n ( j = 1 n 1 ( 1 + i x j ) ) = ( j = 1 n 1 ( 1 + i x j ) ) x n = ( j = 1 n 1 x j ) x n = j = 1 n x j .
(It's traditional to write this last display in reverse order, but I think the manipulations are easier to follow in this order.) The step yielding x n in the denominator may be less than obvious: we want the negative imaginary part here because (in the previous line) when it is multiplied by i x n , it must yield a positive real part. (Trying to stumble across this manipulation in the traditional order is why I think the order above is easier to follow.) This completes our induction.
Having done that, it should be no great challenge to show that ( j = 1 n ( 1 + i x j ) ) splits the even and odd degree terms into the denominator and numerator, respectively, and also has the signs you want for your ( mod 4 ) representation.

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