The values obtained from equations (27), (28), (29), and 
(30) for a range of values of y are given in Table III. 
ZABLE IIL 
v = Sry Ym %m 
deg. sec” /£t £t £t £t 
5 8.33 x 1075 1,600 140 1,595 
10 16.8 x 107% 3,180 560 3,130 
15 25:5 x 1075 4,740 1,200 4,470 
20 34079 30 Ler 6,260 2,140 5,880 
25 44.4 x 1075 7,740 2270 7,010 
30 55.0 x 107° 9,150 4,570 7,920 
35 66.0 x 1075 10, 480 6,010 8,580 
40 159 en 4 11,740 7,550 9,000 
45 95h 2x Lone 12,930 9,140 9,140 
50 Tees xome 13,950 10,700 8,960 
55 136 x 1075 14,980 12,270 ~~ 8,600 
60 165 xLOnS 15,850 13,710 7,910 
65 204 x 107° 16,600 14, 400 7,030 
70 262 x 1078 17,200 16,200 5,880 
The general relations for the faired cable configuration 
can now also be expressed in terms of the cable diameter, the 
free-stream velocity, and the non-dimensional cable functions. 
These relations are: 
9 = 3.84% 10° Ibs (31) 
2 
d T) £t 
s,= 19.2 x 10° ie es z) (F) (32) 
24 
