for a/b = 3 
(u2b? = 0,01 and 0.002, 
0. ae 0.43845 
0.32005 
0.15221 
0.54040 
0.41941 
0.24781 
0.03674 
0.694655 
0.680540 
0.657395 
0.625774 
0.586434 
0.540309 
0.488487 
0.432176 
0.372678 
0.311316 
0.249477 
0.188489 
0.129632 
0.074094 
0.022936 
—0.15756 
—0.15052 
— 0.13833 
~—0.12181 
— 0.10185 
— 0.07941 
0.09380 
0.09026 
0.08340 
0.073 64 
0.06146 
0.61389 
0.62008 
0.67076 
0.34483 
0.47364 
0.58167 
0.64656 
2.059820 
0.937865 
0.525879 
0.294562 
0.138926 
+0.024580 
—0.062813 
-0.130196 
— 0.181308 
—0.627412 
—0.600130 
—0.555772 
—0.495965 
—0.422898 
~0.339237 
—0.248028 
—0.152572 
— 0.056309 
0.218516 | 
— 0.243325 
—0.257009 
— 0.260689 
—0.255458 
—0.242428 
— 0.00126 
+0.02847 
0.05483 
0.07718 
0.09506 
0.10814 
—0.000855 
— 0.01889 
—0.03533 
~ — 0.04965 
—0.06139 
K, = 100 k, 
Pe Oe 
2’ "1 py 
TABLE 3 — Values of the Functions C,)(z,y), Co,(@,¥), @C,9(@,y), and «C,, (x,y) 
eC, ( (x,y) 
0.084347 
0.165507 
0.240416 
0.306252 
0.360550 
0.401328 
0.426976 
0.437121 
0.430183 
TABLE 4 — Time Constants M, and M, for a Constant-Current Coated Wire a/b = 1.5 
my) 
PoP. 
