In Exercises 1–8, use Bayes’ theorem or a tree diagram to calculate the indicated probability. Round all answers to four decimal places. [ HinT: See Quick Example 1 and Example 3.] P ( A | B ) = .8 , P ( B ) = .2 , P ( A | B ′ ) = .3 . Find P ( B | A ) .
In Exercises 1–8, use Bayes’ theorem or a tree diagram to calculate the indicated probability. Round all answers to four decimal places. [ HinT: See Quick Example 1 and Example 3.] P ( A | B ) = .8 , P ( B ) = .2 , P ( A | B ′ ) = .3 . Find P ( B | A ) .
Solution Summary: The author calculates the probability P(B|A) for two events A and T, using Bayes' theorem.
In Exercises 1–8, use Bayes’ theorem or a tree diagram to calculate the indicated probability. Round all answers to four decimal places. [HinT: See Quick Example 1 and Example 3.]
P
(
A
|
B
)
=
.8
,
P
(
B
)
=
.2
,
P
(
A
|
B
′
)
=
.3
. Find
P
(
B
|
A
)
.
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Discrete Distributions: Binomial, Poisson and Hypergeometric | Statistics for Data Science; Author: Dr. Bharatendra Rai;https://www.youtube.com/watch?v=lHhyy4JMigg;License: Standard Youtube License