Page:On the expression of a number in the form 𝑎𝑥²+𝑏𝑦²+𝑐𝑧²+𝑑𝑢².djvu/4

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14

Mr Ramanujan, On the expression of a number

The result concerning $\scriptstyle {x^{2}+y^{2}+z^{2}}$ is due to Cauchy: for a proof see Landau, Handbuch der Lehre von der Verteilung der Primzahlen, p. 550. The other results can be proven in an analogous manner. The form $\scriptstyle {x^{2}+y^{2}+2z^{2}}$ has been considered by Lebesgue, and the form $\scriptstyle {x^{2}+y^{2}+3z^{2}}$ by Dirichlet. For references see Bachmann, Zahlentheorie, vol. iv, p. 149.

We proceed to consider the seven cases (2·41)—(2·47). In the first case we have to show that any number

\scriptstyle {N}

can be expressed in the form

\scriptstyle {N=x^{2}+y^{2}+z^{2}+du^{2}}

(4·1),

$\scriptstyle {d}$ being any integer between $\scriptstyle {1}$ and $\scriptstyle {7}$ inclusive.

If $\scriptstyle {N}$ is not of the form $\scriptstyle {4^{\lambda }(8\mu +7)}$ , we can satisfy (4·1) with $\scriptstyle {u=0}$ . We may therefore suppose that $\scriptstyle {N=4^{\lambda }(8\mu +7)}$ .

First, suppose that

\scriptstyle {d}

has one of the values

\scriptstyle {1}

,

\scriptstyle {2}

,

\scriptstyle {4}

,

\scriptstyle {5}

,

\scriptstyle {6}

. Take

\scriptstyle {u=2^{\lambda }}

. Then the number

$\scriptstyle {N-du^{2}=4^{\lambda }(8\mu +7-d)}$

is plainly not of the form

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

, and is therefore expressible in the form

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

.

Next, let $\scriptstyle {d=3}$ . If $\scriptstyle {\mu =0}$ , take $\scriptstyle {u=2^{\lambda }}$ . Then

$\scriptstyle {N-du^{2}=4^{\lambda +1}}$ .

the numbers which are not of the form $\scriptstyle {x^{2}+2y^{2}+10z^{2}}$ are those belonging to one or other of the four classes

$\scriptstyle {25^{\lambda }(8\mu +7),\quad 25^{\lambda }(25\mu +5),\quad 25^{\lambda }(25\mu +15),\quad 25^{\lambda }(25\mu +20).}$

Here some of the numbers of the first class belong also to one of the next three classes.

\scriptstyle {x^{2}+y^{2}+10z^{2}}

$\scriptstyle {4^{\lambda }(16\mu +6)}$ ,

$\scriptstyle {3,~7,~21,~31,~33,~43,~67,~79,~87,~133,~217,~219,~223,~253,~307,~391,~\ldots }$

do not seem to obey any simple law.

${\begin{array}{rcrcr}\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {y^{2}}&\scriptstyle {+}&\scriptstyle {4z^{2},}\\\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {y^{2}}&\scriptstyle {+}&\scriptstyle {5z^{2},}\\\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {y^{2}}&\scriptstyle {+}&\scriptstyle {6z^{2},}\\\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {y^{2}}&\scriptstyle {+}&\scriptstyle {8z^{2},}\\\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {2y^{2}}&\scriptstyle {+}&\scriptstyle {6z^{2},}\\\scriptstyle {x^{2}}&\scriptstyle {+}&\scriptstyle {2y^{2}}&\scriptstyle {+}&\scriptstyle {8z^{2}.}\end{array}}$

$\scriptstyle {4^{\lambda }(8\mu +7)}$ or $\scriptstyle {(8\mu +3)}$ ,
$\scriptstyle {4^{\lambda }(8\mu +3)}$ ,
$\scriptstyle {9^{\lambda }(9\mu +3)}$ ,
$\scriptstyle {4^{\lambda }(16\mu +14)}$ , $\scriptstyle {(16\mu +6)}$ , or $\scriptstyle {(4\mu +3)}$ ,
$\scriptstyle {4^{\lambda }(8\mu +5)}$ ,
$\scriptstyle {4^{\lambda }(8\mu +7)}$ or $\scriptstyle {(8\mu +5)}$ .

Page:On the expression of a number in the form 𝑎𝑥²+𝑏𝑦²+𝑐𝑧²+𝑑𝑢².djvu/4

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