Chase, ] 
Dr. Meyer’s estin 
value (8512). 
mean distance, 9. 
the generally accept 
Subst 
The logarithms wl 
(Note 437) are as fo 
} (82) 
(hb 4°88) 
Notes 451-4 give 
uniform scale has be 
lessly for comparisor 
astronomical data, 
5 
4 
We are now prepa 
the different belts. 
the chief centres of 
give the equation : 
The value of V gy 7 
27 
cD 
31558149 
“5, 
(41) — (89) 
by (128 au 49) 
Meyer includes the r 
cording to Meyer, 351 
525 
(26) -- } (30 — 28) 
the eight primary pl: 
(85) ++ (86) — (87) 
(38) — (24) —» (40) 
604 
[April 18, 
458. Mass of Saturn. 
rate of m, —- mg (The Observatory, vi, 279), is 8482.93 
+ 5.5. This is nearly identical with Hall’s value, as given in Note 436. 
1 
ings, estimating their mass as equivalent to {19.17% 
ib 
Bessel’s estimate was 118" If we omit, the rings, ™m) -- m, becomes, ac- 
2.2, which is substantially identical with Leverrier’s 
‘ituting in Alexander’s harmony we get, for Saturn’s 
1395, which differs by less than 7 of one per cent from 
ed distance. 
8512.2 
9.52513 
3.5455792 
9788709 
30 
31 
454. Orbital Momentum. 
1ich represent orbital momentum for Karth and Venus 
llows ; 
1238828 T.8593379 82 
85049 T.9296690 83 
837066 5.587'7854. 34. 
simple harmonic approximations to all the masses of 
vets, I think this is the first publication in which a 
en adopted for all the planets, and I submit it fear- 
1 with any estimate which has been based on ordinary 
6 
5. Linkage of Harth and Jupiter. 
red for a systematic examination of the linkages among 
In note 425 we found that the gravitating energies, at 
nucleation and of nebulosity, are so connected as to 
(1 -- 6) gs t5 = V gy % 
‘y may be found by the following logarithms : 
1981799 85 
8.49699382 86 
7A991115 3 
4.960616 38 
759212382 39 
17863, 25 4.2519605 40 
*'8.5718557 41 
2. 9792325 42 
T,.0002282 43 
