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Page:On the expression of a number in the form π‘Žπ‘₯Β²+𝑏𝑦²+𝑐𝑧²+𝑑𝑒².djvu/9

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  1. In the first place, must be odd; otherwise the odd numbers cannot be expressed in this form. Suppose then that is odd. I shall show that all integers save a finite number can be expressed in the form (7Β·1); and that the numbers which cannot be so expressed are

    (i) the odd numbers less than ,

    (ii) the numbers of the form less than ,

    (iii) the numbers of the form greater than and less than ,

    (iv) the numbers of the form

    ,

    greater than and less than , where if , if , if , and if .

    First, let us suppose even. Then, since is odd and is even, it is clear that must be even. Suppose then that

    .

    We have to show that can be expressed in the form

    (7Β·2).

    Since , it follows from (6Β·2) that all integers except those which are less than and of the form can be expressed in the form (7Β·2). Hence the only even integers which cannot be expressed in the form (7Β·1) are those of the form less than .

    This completes the discussion of the case in which is even. If is odd the discussion is more difficult. In the first place, all odd numbers less than are plainly among the exceptions. Secondly, since and are both odd, must also be odd. We can therefore suppose that

    ,

    where is an integer of the form , so that may assume the values . And we have to consider whether can be expressed in the form

    ,

    or in the form

    (7Β·3).


    If is not of the form , we can take . If it is of this form, and less than , it is plainly an exception. These numbers give rise to the exceptions specified in (iii) of section 7. We may therefore suppose that is of the form and greater than .