OCR source line
2 $ = 0.4 X 105 / log, TT^ = 0.4 X 105 X 4.70 I = 0.188 X 106 7,General Equation Candidates
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Candidate Formula Cards
Section titled “Candidate Formula Cards”OCR source line
E = 4/n$> = generated e.m.f. ($ in megalines, / inOCR source line
Pi = 6i i = c -y/i {I + 8)OCR source line
Pi = 0.102 + 0.059 H (7)OCR source line
of soft material of reluctivity pi (ferrite) and g = 1 - p of hardOCR source line
p = 0.80 : pi = 0.082 + 0.0477 H,OCR source line
log w = log 7} + n log B, (19)OCR source line
PI = ^ \ . ^ gram-cm. (22)OCR source line
If then vx = 0.9c and V2 = 0.9c, v = 1.8c/1.81 = 0.9945c;OCR source line
the resistance, or 10 ohms. The current therefore - = ~r =OCR source line
1. Ohm’s law: i = -, where r, the resistance, is a constantOCR source line
posed, hence, i = 2ir NCe the current passing into the con-OCR source line
B^ the sine varies from to OB = 1. Hence the averageOCR source line
67. If tf = 1, that is, if the voltage at the receiver cir-OCR source line
If dr = 1 when ^ = 0, ^ =OCR source line
If ^^ = 2 r^, orjr^ = r^ V3, the maximum output, P =OCR source line
jni’iea-cil secondary resistance: ■> where ri = 0.1 in theOCR source line
It seems as if the terminal drop, a = 36 volts with carbon, con-OCR source line
rj = 0.824 X 10-3 fQj. ^i^Q medium range, where n = 1.6OCR source line
n = 1.6 for the medium range, where ij = 0.0824 X 10-‘OCR source line
Ml = 2 for the low range, where in = 0.0457 X 10”*OCR source line
^^ lower intrinsic saturation value. Thus, if S = 21 X 10’ isOCR source line
ated e.m.f. is E = 12.5 volts.OCR source line
E = 4 fn& is the average generated e.m.f.,OCR source line
generated e.m.f. is 0.151 H volts. Since this is = 0.028 volt,OCR source line
The generated e.m.f. is E = 550 volts, thus by the formula ofOCR source line
mary coil, an E.M.F. Ex = I0x0 is required, 90° ahead ofOCR source line
from log B = 3; B = 1000, to log B = 4; B = 10,000, with slopeOCR source line
1.6006, and for low densities, up to log B = 2.6; B = 400, withOCR source line
c = ~7E=^ = 3 X IQio cm.,OCR source line
value - that is, assume x = 0, t = 0, x’ = 0, t’ = 0,OCR source line
x’ = a{x - vt) 1OCR source line
i’ = ^= or i = ^= (2)OCR source line
from the train^ - is U = X2’ - Xi ; in track coordinates -OCR source line
between the same events is T = to - ti. However, by (2) :OCR source line
the time i\\ that is, the length of the train is L = X\- X2.OCR source line
s^ = (X2 - x^y + {u -hy = (xo’ - xi’Y + {k - uY =s’^OCR source line
{X2 - xi)2 - c\U -hy = (x./ - Xi’Y - c\t,’ - h’Y, (5)OCR source line
w = ct (6)OCR source line
*S^ = (0:2 - Xi)^ - {w-i - WiY =OCR source line
u = jet’, (10)OCR source line
x’ = -r==l or: X = ~. (11)OCR source line
S’- = (x, - x,y + (i/2 - yiY + (22 - z,y + {U2 - u^y =OCR source line
light- by (3) and (4), L = 0 and T = oo. That is, onOCR source line
F = HP (1)OCR source line
F=KQ, (2)OCR source line
F = gN, (3)OCR source line
F = CR, (4)OCR source line
W = Mvy2, (5)OCR source line
a = F/M, (6)OCR source line
per cent, and the acceleration thus is a = 0.1^ = 2.2 milesOCR source line
Fc = Mvyi (9)OCR source line
Fo = -Mvyi (11)OCR source line
CO = CO 2 - COi. (13)OCR source line
C02 = V^/COCR source line
CO = (^2 - Vi)/C. (15)OCR source line
Vi - Vi = gt; (16)OCR source line
co= gt/c (17)OCR source line
C = ird. (19)OCR source line
2/K = 1.08 X 20” cm.OCR source line
P = 3 X 10-”.OCR source line
V = 2w^R’^OCR source line
conditions: C = ird, > 7r(iand<7rd.OCR source line
/vi = 1/R, (3)OCR source line
R = VR1R2 = -^ (6)OCR source line
I = 27rR (7)OCR source line
A = 4x7^2 (8)OCR source line
V = 4.ir’R’/S ’ (9)OCR source line
R = l/VK. (10)OCR source line
z = 0; (12)OCR source line
R = l/VK. (14)OCR source line
P4 = r - I 1 1 ’ (4)