526]
401
526.
ON A SURFACE OF THE EIGHTH ORDER.
[From the Mathematische Annalen, vol. iv. (1871), pp. 558—560.]
I reproduce in an altered form, so as to exhibit the application thereto of the
theory of the six coordinates of a line, the analysis by which Dr Hierholzer obtained
the equation of the surface of the eighth order, the locus of the vertex of a
quadricone which touches six given lines.
I call to mind that if (a, /3, y, 8), (a', /3', y', 8') are the coordinates of any two
points on a line, then the quantities (a, b, c, f, g, h), which denote respectively
W — ¡3'ry, iya — y'a, a/3' — a'/3, a8' — a'8, /38' — /3'8, y8' — y'8),
and which are such that af+bg + ch = 0, are the six coordinates of the lineC).
Consider the given point (x, y, z, w) and the given line (a, b, c, f g, h), and write
for shortness
P — hy — gz + aw,
Q — — hx +fz + bw,
9 X ~fy + cw >
S = — ax — by — cz ,
then taking (X, Y, Z, IF) as current coordinates, the equation of the plane through
the given point and line is
PX+QY+RZ + SW=0.
Considering in like manner the given point (x, y, z, w) and the three given lines
(a lt b x , c u f lt g 1} /¿i), (a 2 >•••)> (a 3 ,...), then we have the three planes
P x X + Q 1 Y+R 1 Z + S x W=0,
P,X + Q 2 Y+R 2 Z+S 2 W=0,
P 3 X + Q 3 Y+R 3 Z + S 3 W = 0,
1 Cayley, “ On the six coordinates of a line,” Gamb. Phil. Trans, vol. xi. (1869), [435], pp. 290—823.
c. viii. 51
