28 
x 1 
3968.39 10, 20 
— 66.80 10, 20 
61.71 12, 25 
58.39 75, 125 
56.90 3, 6 
41.75 10, 15, 8 
86.28 12, 25 
81.55 2,4 
29.71 30, 50 
26.96 3,50 
20.85 2,4 
18.25 1+, 3 
16.80 aye Ps 
14.59 10, 20 
00.08 2, 4 
3897.82 5, 10 
96.73 10, 20 
92.19 6, 12 
85.61 12> 25 
79.21 10, 20 
[7.78 12, 25 
64.57 25, 50 
64.12 30, 50 
49.48 La ep 
47.22 12, 20 
43.30 25, 50 
36.98 75, 150 
36.18 25, 50 
22.60 15, 30 
00.91 5, 10 
3796.71 30, 50 
92.55 10, 20 
91.60 15, 25 
86.80 4,8 
82.99 3, 6 
82.45 3, 6 
72.29 10, 20 
66.99 50, 100 
59.30 3, 6 
57.99 12, 25 
51.85 75, 150 
50.84 10, 20 
46,18 50, 100 
38.32 6, 10 
37.54 4,8 
35.15 12) 20 
31.50 30, 50 
29.98 8, 15 
27.90 15, 20 
19.02 8, 12 
14.99 30, 50 
to 
” 
oy we 
B. E. Moore 
Ad/r2 A i Ad/r? 
+1.16 3714.30 6, 10 +2.05 
1.69 09.51 40, 75 1.20 
1.29 3698.41 75, 125 1.26 
.98 97.70 20, 40 1.28 
.62 79.80 1+, 3 [1.37] 
1.01 79.10 155-25 1.24 
1.88 72.81 3, 5 2.85 
1.66 71.49 25, 40 99 
1.14 68.69 15, 25 ie 
1.19 67.28 6, 12 1.382 
[1.67] 62.32 10, 20 95 
[.50] 61.10 3, 5 57 
1.42 55.72 85 15 1.74 
94 53.61 2,4 alba 7 
[1.65] 51.65 2, 4 [1.44] 
1.43 36.69 15, 25 1.69 
1.18 33.70 12, 20 1.29 
1.21 . 80.80 20, 40 1.89 
Pal: 19.22 6, 12 83 
iat 123 30, 50 1.44 
1.10 07.60 15, 38 1.48 
1.82 01.40 40, 75 1.24 
1.20 00.11 10; 15 AAI 
1.35 3588.96 3, 6 nla 
1.28 88.51 12, 20 1.66 
1.05 86.42 15, 30 vie 
1.24 (7.74 5, 8 PSL Bie 
76 vuenul) 50; 2b 1.89 
85 75.89 15, 25 1.85 
1.44 72.70 75, 125 1.04 
1.80 70.25 612 iNyalal 
1.88 66.30 LH; 325 1.23 
1.52 65.61 10, 20 938 
1.34 59.23 6, 10 80 
[.92] 56.89 16, 125 94 
[.72] 50.67 8, 20 1.40 
SAL e 49.73 20, 30 1.60 
1.15 47.90 20, 30 1.39 
12% 42.87 40, 60 1.23 
131 39.17 5, 8 eras 
1.02 Swe kt E 10, 15 1.24 
1.30 35.380 6, 10 1.28 
1.19 33.35 12,20 1.838 
1.47 31.00 10, 20 Es le 
1.08 27.58 15, 25: 1.19 
162 26.00 25, 40 1.70 
97 21.01 12, 20 1.93 
1.87 19.72 25, 40 1.19 
1.60 10.61 812 12, 
1.59 09.48 20, 30 1.23 
1.46 06.28 10, 15 1.89 
