The probability of a binomial distribution is given by
P(x) = nCx (p)^x (q)^(n - x)
where:
x is the number of successes.
n is the number of trials = 4.
p is the probability of success = 27/50 = 0.54.
q is the probability of failure = 1 - p = 1 - 0.54 = 0.46
P(0) = 4C0 (0.54)^0 (0.46)^4 = 1 x 1 x 0.0448 = 0.0448
P(1) = 4C1 (0.54)^1 (0.46)^3 = 4 x 0.54 x 0.0973 = 0.2102
P(2) = 4C2 (0.54)^2 (0.46)^2 = 6 x 0.2916 x 0.2116 = 0.3702
P(3) = 4C3 (0.54)^3 (0.46)^1 = 4 x 0.1575 x 0.46 = 0.2897
P(4) = 4C4 (0.54)^4 (0.46)^0 = 1 x 0.085 x 1 = 0.085.
Answer:
To convert 93.01% to decimal, simply divide 93.01 by 100 as follows:
93.01 / 100 = 0.9301
Step-by-step explanation:
To convert 93.01% to decimal, simply divide 93.01 by 100 as follows:
93.01 / 100 = 0.9301
Answer:
The answer to your question is below
Step-by-step explanation:
To solve this problem, for a and c, just look in the x-axis the value given and find the value of a and c in the y-axis.
To solve this problem, for b and d, just look in the y-axis the value given and find the value of b and d in the x-axis.
f(2) = -3 a = -3
f(b) = 0 b = -4
f(-2) = -1 c = -1
f(d) = -6 d = 8
Answer:
Step-by-step explanation:
Distance Formula:
Simply plug in your coordinates into the distance formula to find the length of AB: