Page:On the expression of a number in the form 𝑎𝑥²+𝑏𝑦²+𝑐𝑧²+𝑑𝑢².djvu/11

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in the form

\scriptstyle {ax^{2}+by^{2}+cz^{2}+du^{2}}

21

(8·3) $\scriptstyle {n\equiv 3{\pmod {4}}}$ .

If

\scriptstyle {\lambda \neq 1}

, take

\scriptstyle {\Delta =1}

. Then

$\scriptstyle {M-4n\Delta =4^{\lambda }(8\mu +7)-4n}$

is of one of the forms

$\scriptstyle {8\nu +3,\quad 4(4\nu +1)}$ .

If

\scriptstyle {\lambda =1}

, take

\scriptstyle {\Delta =3}

. Then

$\scriptstyle {M-4n\Delta =4(8\mu +7)-12n}$

is of the form

\scriptstyle {4(4\nu +2)}

. In either of these cases

\scriptstyle {M-4n\Delta }

is of the form

\scriptstyle {x^{2}+y^{2}+z^{2}}

.

This completes the proof that there is only a finite number of exceptions. In order to determine what they are in this case, we have to consider the values of $\scriptstyle {M}$ , between $\scriptstyle {4n}$ and $\scriptstyle {12n}$ , for which $\scriptstyle {\Delta =1}$ and

$\scriptstyle {M-4n\Delta =4(8\mu +7-n)\equiv 0{\pmod {16}}}$ .

But the numbers which are multiples of

\scriptstyle {16}

and which cannot be expressed in the form

\scriptstyle {x^{2}+y^{2}+z^{2}}

are the numbers

$\scriptstyle {4^{\kappa }(8\nu +7),\quad (\kappa =2,~3,~4,~\ldots ,\,\nu =0,~1,~2,~\ldots )}$ .

The exceptional values of

\scriptstyle {M}

required are therefore those of the numbers

\scriptstyle {4n+4^{\kappa }(8\nu +7)}

(8·31)

which lie between

\scriptstyle {4n}

and

\scriptstyle {12n}

and are of the form

\scriptstyle {4(8\mu +7)}

(8·32).

But in order that (8·31) may be of the form (8·32),

\scriptstyle {\kappa }

must be

\scriptstyle {2}

if

\scriptstyle {n}

is of the form

\scriptstyle {8k+3}

, and

\scriptstyle {\kappa }

may have any of the values

\scriptstyle {3,~4,~5,~\ldots }

if

\scriptstyle {n}

is of the form

\scriptstyle {8k+7}

. It follows that the only numbers greater than

\scriptstyle {9n}

which cannot be expressed in the form (7·1), in this case, are the numbers of the form

$\scriptstyle {9n+4^{\kappa }(16\nu +14),\quad (\nu =0,~1,~2,~\ldots )}$ ,

lying between

\scriptstyle {9n}

and

\scriptstyle {25n}

, where

\scriptstyle {\kappa =2}

if

\scriptstyle {n}

is of the form

\scriptstyle {8k+3}

, and

\scriptstyle {\kappa >2}

if

\scriptstyle {n}

is of the form

\scriptstyle {8k+7}

.

This completes the proof of the results stated in section 7.

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