. Electrical ignition. 88 .266 .372 100 .316 .554 120 .46 .966 140 .96 .521 160 .895 .558 180 .86 .581 200 .895 .558 220 .96 .521 o 240 .46 260 .316 280 .266 300 .46 320 .96 .521 340 .895 .558 360 .86 .581 Circuit Currentat e = 0°. = observed /ft * i # i Dif f x/x X X 0 0 0 .11 .18 .62 .42 .2 .53 .35 .81 10. .14 .12
. Electrical ignition. 88 .266 .372 100 .316 .554 120 .46 .966 140 .96 .521 160 .895 .558 180 .86 .581 200 .895 .558 220 .96 .521 o 240 .46 260 .316 280 .266 300 .46 320 .96 .521 340 .895 .558 360 .86 .581 Circuit Currentat e = 0°. = observed /ft * i # i Dif f x/x X X 0 0 0 .11 .18 .62 .42 .2 .53 .35 .81 10. .14 .12 . i-^o .98 .35 .93 .2 1. .31 .53 .01 .62 .65 .37 -7,86 .76 .25 .89 .18 .68 # Sudden short circuit current - i0Permanent short circuit current i 36 Graph 6 shows the transient currents calculated fromthe equation, and from the oscillogram. The tabulation ofthe calculated value of current is given in Table
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