Page:On the expression of a number in the form 𝑎𝑥²+𝑏𝑦²+𝑐𝑧²+𝑑𝑢².djvu/6

From Wikisource

Jump to navigation Jump to search

This page has been validated.

16

Mr Ramanujan, On the expression of a number

or is of any of the forms

\scriptstyle {4k+2,\quad 4k+3,\quad 8k+5,\quad 16k+12,\quad 32k+20}

(5·22),

then all integers save a finite number, and in fact all integers from $\scriptstyle {4n}$ onwards at any rate, can be expressed in the form (5·2); but that for the remaining values of $\scriptstyle {n}$ there is an infinity of integers which cannot be expressed in the form required.

In proving the first result we need obviously only consider numbers of the form

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

greater than

\scriptstyle {n}

, since otherwise we may take

\scriptstyle {u=0}

. The numbers of this form less than

\scriptstyle {n}

are plainly among the exceptions.

I shall consider the various cases which may arise in order of simplicity.

(6·1) $\scriptstyle {n\equiv 0{\pmod {8}}}$ .

There are an infinity of exceptions. For suppose that

$\scriptstyle {N=8\mu +7}$ .

Then the number

$\scriptstyle {N-nu^{2}\equiv 7{\pmod {8}}}$

cannot be expressed in the form $\scriptstyle {x^{2}+y^{2}+z^{2}}$ .

(6·2) $\scriptstyle {n\equiv 2{\pmod {4}}}$ .

There is only a finite number of exceptions. In proving this we may suppose that $\scriptstyle {N=4^{\lambda }(8\mu +7)}$ . Take $\scriptstyle {u=1}$ . Then the number

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

is congruent to $\scriptstyle {1}$ , $\scriptstyle {2}$ , $\scriptstyle {5}$ , or $\scriptstyle {6}$ to modulus $\scriptstyle {8}$ , and so can be expressed in the form $\scriptstyle {x^{2}+y^{2}+z^{2}}$ .
Hence the only numbers which cannot be expressed in the form (5·2) in this case are the numbers of the form $\scriptstyle {4^{\lambda }(8\mu +7)}$ not exceeding $\scriptstyle {n}$ .

(6·3) $\scriptstyle {n\equiv 5{\pmod {8}}}$ .

There is only a finite number of exceptions. We may suppose again that $\scriptstyle {N=4^{\lambda }(8\mu +7)}$ . First, let $\scriptstyle {\lambda \neq 1}$ . Take $\scriptstyle {u=1}$ . Then

$\scriptstyle {N-nu^{2}=4^{\lambda }(8\mu +7)-n\equiv 2\ {\mathit {or}}\ 3{\pmod {8}}}$ .

If $\scriptstyle {\lambda =1}$ we cannot take $\scriptstyle {u=1}$ , since

$\scriptstyle {N-n\equiv 7{\pmod {8}}}$ ;

so we take $\scriptstyle {u=2}$ . Then

$\scriptstyle {N-nu^{2}=4^{\lambda }(8\mu +7)-4n\equiv 8{\pmod {32}}}$ .

In either of these cases $\scriptstyle {N-nu^{2}}$ is of the form $\scriptstyle {x^{2}+y^{2}+z^{2}}$ .
Hence the only numbers which cannot be expressed in the form (5·2) are those of the form $\scriptstyle {4^{\lambda }(8\mu +7)}$ not exceeding $\scriptstyle {n}$ , and those of the form $\scriptstyle {4(8\mu +7)}$ lying between $\scriptstyle {n}$ and $\scriptstyle {4n}$ .

Retrieved from "https://en.wikisource.org/w/index.php?title=Page:On_the_expression_of_a_number_in_the_form_𝑎𝑥²%2B𝑏𝑦²%2B𝑐𝑧²%2B𝑑𝑢².djvu/6&oldid=13055044"

Validated