412
ON CUBIC CONES AND CURVES.
[351
26. If T— 0, the equation becomes
or reducing, this is
(* 2 + ^+l) 3 -^ 2 (S- + 1)2 = 0;
1C* - 1) <* + *)(* +2)}» «0,
that is the six roots are 1, — — 2, each twice: and the four tangents form therefore
a harmonic pencil, which is the geometrical interpretation of the condition T = 0.
(^•2 _j_ _|_ ]\3
27. The function - ^ is constantly positive and it has three equal mi
minima
if 1 — is positive and less than unity, that is, if S and 64$ 3 — T 2 are each of
values corresponding to the last-mentioned values 1, — — 2 of S-, viz. this minimum
value is = . Hence we see that the equation in S will have its six roots all real
T 2
64$ 3
them positive: but when these conditions are not satisfied the six roots are imaginary:
the limiting case 1 — =1 or T = 0 gives, as already mentioned, the three roots
1, — —2, each twice.
28. The quantities a, b, c, d which determine the four tangents may be all real,
or two real and two imaginary, or all four imaginary; but the imaginary values
appear as usual as a conjugate pair or conjugate pairs; and this being so, it is easy
to see that in general if Sr be real the quantities a, b, c, d are all real or else all
imaginary; but if S^ is imaginary then a, b, c, d are two of them real, two imaginary:
in fact if a, b are real and c and d are conjugate imaginaries 7 + Si, then we have
for one of the six values of S,
_ (a — b) . 2 Si
— (a — 7 — Si) (b — 7 + Si) ’
which is in general imaginary.
29. But, as might have been foreseen, the limiting values Sr = 1, — —2, are an
exception, viz. for these values a, b, c, d may be two of them real the other two
imaginary: in fact the last-mentioned value of S- is real and = ~ > = 2, if
(a — 7) (b — 7) + S 2 = 0, that is ab + 7 2 + S 2 = 7 (a + b), or, as the condition may also be
written,
2ab + 2 (7 + Si) (7 — Si) = (7 + Si 4- 7 — Si) (a -I- b),
that is 2 (ab + cd) = (a + b)(c + d), or if a, b, c, d form a harmonic system.
