proof of Euler four-square identity

Using Lagrange’s identity, we have

$\displaystyle\left(\sum_{k=1}^{4}x_{k}y_{k}\right)^{2}$

$\displaystyle=\left(\sum_{k=1}^{4}x_{k}^{2}\right)\left(\sum_{k=1}^{4}y_{k}^{2% }\right)-\sum_{1\leq k<i\leq 4}(x_{k}y_{i}-x_{i}y_{k})^{2}\mbox{.}$

(1)

We group the six squares into 3 groups of two squares and rewrite:

	$\displaystyle(x_{1}y_{2}-x_{2}y_{1})^{2}+(x_{3}y_{4}-x_{4}y_{3})^{2}$	(2)
$\displaystyle=$	$\displaystyle((x_{1}y_{2}-x_{2}y_{1})+(x_{3}y_{4}-x_{4}y_{3}))^{2}-2((x_{1}y_{% 2}-x_{2}y_{1})(x_{3}y_{4}-x_{4}y_{3}))$	(3)
	$\displaystyle(x_{1}y_{3}-x_{3}y_{1})^{2}+(x_{2}y_{4}-x_{4}y_{2})^{2}$	(3)
$\displaystyle=$	$\displaystyle((x_{1}y_{3}-x_{3}y_{1})-(x_{2}y_{4}-x_{4}y_{2}))^{2}+2(x_{1}y_{3% }-x_{3}y_{1})(x_{2}y_{4}-x_{4}y_{2})$	(4)
	$\displaystyle(x_{1}y_{4}-x_{4}y_{1})^{2}+(x_{2}y_{3}-x_{3}y_{2})^{2}$	(4)
$\displaystyle=$	$\displaystyle((x_{1}y_{4}-x_{4}y_{1})+(x_{2}y_{3}-x_{3}y_{2}))^{2}-2(x_{1}y_{4% }-x_{4}y_{1})(x_{2}y_{3}-x_{3}y_{2})\mbox{.}$	(5)

Using

	$\displaystyle-2((x_{1}y_{2}-x_{2}y_{1})(x_{3}y_{4}-x_{4}y_{3}))$	$\displaystyle+2(x_{1}y_{3}-x_{3}y_{1})(x_{2}y_{4}-x_{4}y_{2})$			(6)
	$\displaystyle-2(x_{1}y_{4}-x_{4}y_{1})(x_{2}y_{3}-x_{3}y_{2})$	$\displaystyle=0$

we get

$\displaystyle\sum_{1\leq k<i\leq 4}(x_{k}y_{i}-x_{i}y_{k})^{2}$	$\displaystyle=((x_{1}y_{2}-x_{2}y_{1})$	$\displaystyle+(x_{3}y_{4}-x_{4}y_{3}))^{2}$	(7)
	$\displaystyle+((x_{1}y_{3}-x_{3}y_{1})-(x_{2}y_{4}-x_{4}y_{2}))^{2}$		(8)
	$\displaystyle+((x_{1}y_{4}-x_{4}y_{1})+(x_{2}y_{3}-x_{3}y_{2}))^{2}$		(8)

by adding equations 2-4. We put the result of equation 7 into 1 and get

$\displaystyle\left(\sum_{k=1}^{4}x_{k}y_{k}\right)^{2}$			(9)
$\displaystyle=\left(\sum_{k=1}^{4}x_{k}^{2}\right)\left(\sum_{k=1}^{4}y_{k}^{2% }\right)$	$\displaystyle-((x_{1}y_{2}-x_{2}y_{1}+x_{3}y_{4}-x_{4}y_{3})^{2}$
	$\displaystyle-(x_{1}y_{3}-x_{3}y_{1}+x_{4}y_{2}-x_{2}y_{4})^{2}$	$\displaystyle-(x_{1}y_{4}-x_{4}y_{1}+x_{2}y_{3}-x_{3}y_{2})^{2}$

which is equivalent to the claimed identity.

Title	proof of Euler four-square identity
Canonical name	ProofOfEulerFoursquareIdentity
Date of creation	2013-03-22 13:18:10
Last modified on	2013-03-22 13:18:10
Owner	Thomas Heye (1234)
Last modified by	Thomas Heye (1234)
Numerical id	7
Author	Thomas Heye (1234)
Entry type	Proof
Classification	msc 13A99

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