The answer depends on the definition of p.
If 12 out of 100 organisms have short legs, P = 0.65.
Without replacement: P(one green and one blue) = P(drawing green then blue) + P(drawing blue then green) = (6/23)(9/22) + (9/23)(6/22) = 104/506 = 52/253 With replacement: P(one green and one blue) = P(green)*P(blue) = (6/23)(9/23) = 54/529
Hold on to your hat! Suppose the rate of depreciation is p percent per year. Current value = Start Value*(1 - percentage/100)years That gives 2047.08 = 5500*(1 - p/100)9 So 0.3722 = (1 - p/100)9 or log(0.3722) = 9*log(1-p/100) -0.4292 = 9*log(1-p/100) -0.0477 = log(1-p/100) 10-0.0477 = 1-p/100 0.8960 = 1-p/100 p/100 = 1 - 0.8960 = 0.1040 and, finally, p = 0.1040*100 = 10.4%
P over B equals R over 100 => P/B = R/100 => P/5950 = 48000/100 => P = 5950 * 480 = 2856000 Or 59.50 * 48000 = 2856000
If you mean: p/35.60 = 18/100 then by multiplying both sides by 35.60 the value of p works out as 6.408
0.16
If 12 out of 100 organisms have short legs, P = 0.65.
, 0.34 Apex
A. 0.45 Apex
0.34 (cst)
It may be 41.
.54
0.47 (apex)
Timothy P. Green was born in 1963.
Jay P. Green was born in 1918.
Jay P. Green died in 2008.
72 p/1 pound = 72 p /100 p = 72/100 = 18/25, in its simplest form.72 p/1 pound = 72 p /100 p = 72/100 = 18/25, in its simplest form.72 p/1 pound = 72 p /100 p = 72/100 = 18/25, in its simplest form.72 p/1 pound = 72 p /100 p = 72/100 = 18/25, in its simplest form.