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Discrete Math Section 16.3 Use the Binomial Probability theorem to find the probability of a given outcome on repeated independent trials. Flip a coin.

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Presentation on theme: "Discrete Math Section 16.3 Use the Binomial Probability theorem to find the probability of a given outcome on repeated independent trials. Flip a coin."— Presentation transcript:

1 Discrete Math Section 16.3 Use the Binomial Probability theorem to find the probability of a given outcome on repeated independent trials. Flip a coin three times - each flip is independent of all the previous flips Outcomes: HHH HHT HTH HTT THH THT TTH TTT Groups probability 1 3H 1/8 3 2H 1T 3/8 3 1H 2T 3/8 1 3T 1/8 Pascal’s Triangle 1 1 1 1 2 1 1 3 3 1

2 Binomial Probability Theorem Suppose an experiment consists of a sequence of n repeated independent trials, each trial having two possible outcomes, A or not A. If on each trial P(A) = p and P(not A) = 1-p, then the binomial expansion [ p + (1-p)] n gives the probabilities for all occurrences of A. n C n p n + n C n-1 p n-1 (1-p) 1 + n C n-2 p n-2 (1-p) 2 … n C 0 (1-p) n

3 Examples A coin is tossed 8 times. What is the probability of getting exactly 5 heads and 3 tails? note: two outcomes…heads or tails repeated independent trials P(H) = p = ½ P(T) = 1-p = ½ 8 C 5 p 5 (1-p) 3 8 C 5 (1/2) 5 (1/2) 3 = 7/32

4 example A quiz consists of 10 multiple choice questions. Each question has three possible answers. If you guess at each question, what is the probability of getting at least eight correct answers?

5 example A die is rolled four times. What is the probability of getting exactly three fives?

6 Assignment Page 616 Problems 2-12 even, 15,17

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