Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or a calculator using the formula below. Round your answer to 3 decimal places. P(x | n, p) = n! (n − x)! x! · px · qn − x    where    q = 1 − p P(x ≥ 2, n = 6, p = 0.4) =

Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or a calculator using the formula below. Round your answer to 3 decimal places. P(x | n, p) = n! (n − x)! x! · px · qn − x where q = 1 − p P(x = 4, n = 6, p = 0.3) =

Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or a calculator using the formula below. Round your answer to 3 decimal places. P(x | n, p) = n! (n − x)! x! · px · qn − x    where    q = 1 − p P(x = 4, n = 6, p = 0.2) =

Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or a calculator using the formula below. Round your answer to 3 decimal places. P(x | n, p) = n! (n − x)! x! · px · qn − x    where    q = 1 − p P(x ≥ 2, n = 6, p = 0.5) =

Calculate the following binomial probability by either using one of the binomial probability tables, software, or...

Calculate the following binomial probability by either using one of the binomial probability tables, software, or a calculator using the formula below. Round your answer to 3 decimal places. P(x | n, p ) = n! (n − x)! x! · px · qn − x    where    q = 1 − p P(x < 4, n = 8, p = 0.4) =

Assume XX has a binomial distribution. Use the binomial formula, tables, or technology to calculate the...

Assume XX has a binomial distribution. Use the binomial formula, tables, or technology to calculate the probability of the indicated event: a. n=20, p=0.7n=20, p=0.7 P(13 ≤ X ≤ 16)=P(13 ≤ X ≤ 16)= Round to four decimal places if necessary b. n=17, p=0.2n=17, p=0.2 P(2 < X < 5)=P(2 < X < 5)= Round to four decimal places if necessary please provide correct answer.

Assume XX has a binomial distribution. Use the binomial formula, tables, or technology to calculate the...

Assume XX has a binomial distribution. Use the binomial formula, tables, or technology to calculate the probability of the indicated event: a. n=22, p=0.7n=22, p=0.7 P(14 ≤ X ≤ 17)=P(14 ≤ X ≤ 17)= Round to four decimal places if necessary b. n=25, p=0.4n=25, p=0.4 P(9 < X < 12)=P(9 < X < 12)= Round to four decimal places if necessary

Compute​ P(X) using the binomial probability formula. Then determine whether the normal distribution can be used...

Compute​ P(X) using the binomial probability formula. Then determine whether the normal distribution can be used to estimate this probability. If​ so, approximate​ P(X) using the normal distribution and compare the result with the exact probability. n=50​, p=0.50​, and x=17 For n=50​, p=0.5​, and X=17​, use the binomial probability formula to find​ P(X). Q: By how much do the exact and approximated probabilities​ differ? A. ____​(Round to four decimal places as​ needed.) B. The normal distribution cannot be used.

Calculate each binomial probability: (a) X = 1, n = 7, π = 0.50 (Round your...

Calculate each binomial probability: (a) X = 1, n = 7, π = 0.50 (Round your answer to 4 decimal places.) P(X = 1) (b) X = 3, n = 6, π = 0.20 (Round your answer to 4 decimal places.) P(X = 3) (c) X = 4, n = 16, π = 0.70 (Round your answer to 4 decimal places.) P(X = 4)

Assume that a procedure yields a binomial distribution with a trial repeated n=9n=9 times. Use either...

Assume that a procedure yields a binomial distribution with a trial repeated n=9n=9 times. Use either the binomial probability formula (or technology) to find the probability of k=3k=3 successes given the probability p=0.27p=0.27 of success on a single trial. (Report answer accurate to 4 decimal places.) P(X=k)=P(X=k)= ________ A company prices its tornado insurance using the following assumptions: • In any calendar year, there can be at most one tornado. • In any calendar year, the probability of a tornado...