i88 3 .] 
of the Solar System , 
151 
Jupiter ; the dired projection is Venus ; the mass is recalled 
by Jupiter which produces the Earth. Mercury is the pro- 
jection of the Earth; the latter nearer Jupiter yields less 
mass ; Mars is the projection or circulating stratum, — the 
undulation of Venus, nearer Jupiter; the former obtains a 
larger share of mass from its central planet. 
We have distance of Venus from the point of gravi- 
tation — 
1^76 Y 
156 ~r~ V1 X 1 ' 02, 5 = 1 ' 2 ' 2 ' aphelion. 
176*'— 156 r= 20 n 214^ — 176^ = 38^ 
3 ? r=rg — ryz x ri. 
20 
We had as limits of the system 77*3 and 397 r. The 
latter figure was obtained by the central point of gravitation ; 
the elongation of the central mass must produce a district 
of separation, inside which the separate mass oscillates. I 
take at once the inner and outer system. 
We had separation at 397 r distance. Saturn has an 
elongation of 41 r (away from the Sun) ; its mass is 3*345 
times less than that of Jupiter. From this farther distance 
follows a greater approximation of the rotary flux reading 
against more rapid transportation ; the point of separation 
is brought 41 r V3‘34 r = 72 r nearer to the Sun, or 
397 r— 72 ^ = 325 r, equal to the mean distance of Mars. 
The elongation of Jupiter is 53 r (nearer the Sun) ; it results 
a readion against the slower translation of the exterior 
system, which brings the point of separation to — * 
53 r x 3 ' 345*+3448 r = 40!5 r, 
equal to the distance of Uranus. 
Mars is the projedion of Venus by the elongation of 
Saturn, whose dired projedion is Venus ; Venus was driven 
1*025 beyond its simple excentric position. With Mars, the 
projedion of Venus, the proportion is reversed ; it is re- 
pulsed by Saturn. We have — 
176 r x 172 x i’ior _ £ r 
1-025 
as distance of Mars. 
Mercury is the projedion of the Earth, which is 1*22 times 
