108
ON THE SURFACES THE LOCI OF
[503
{Surface abcdef.)
or, as this may be written,
8
S'
z
aL + bM + cN,
a'L +b'M -|-c'N,
N
aL' + bM' + cN',
a'L' + b'M' + c’N',
N
and, for a point on the line aa{3, this
is
aL + bM + cN
a'L + b'M + c'N
= 0.
aL' + bM' + cN’,
a'L’+b'M' + c'N'
But in the equations — a'L — b'M — c'N = — (af +• b'g + c'h) S', and — aL — bM — cN
= (af + bg + cti) S, writing S = 0 and S' = 0, we have aL+ bM + cN= 0 and a'L+b'M+c'N = 0,
and the equation is satisfied; that is, the surface passes through the line aot/3, and
similarly it passes through the line ay8.
Surface abcdef.
16. The equation may be written
pabe .pcde .pacf.pdbf— pabf. pcdf. pace. pdbe = 0,
where pabe = 0 is the equation of the plane through the points a, b, e; and the like
for the other symbols. The form is one out of 45 like forms, depending on the
partitionment
( ab . cd
ac . db
[ ad. be
(ef)>
of the six letters.
17. Investigation. In the projection, the six points (p a , q a , r a ) are situate on a
conic ; the condition for this is
(p, q, rf = 0,
where the left-hand side represents the determinant obtained by writing successively
(p a , q a i r a)> & c -> for (p, q, r). The equation in question may be written
where
abe. ede. acf. dbf—
abf.
cdf.
abe ---
Pa,
Qa,
r a
Pb,
q b ,
n
Pc .
q e >
r e
, &c.;
and substituting for p a ,..., their values, we have abe = w 2 .pabe, whence the foregoing
result.
