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Discrete Probability Distributions Chapter 4. § 4.2 Binomial Distributions.

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Presentation on theme: "Discrete Probability Distributions Chapter 4. § 4.2 Binomial Distributions."— Presentation transcript:

1 Discrete Probability Distributions Chapter 4

2 § 4.2 Binomial Distributions

3 Larson & Farber, Elementary Statistics: Picturing the World, 3e 3 Binomial Experiments A binomial experiment is a probability experiment that satisfies the following conditions. 1. The experiment is repeated for a fixed number of trials, where each trial is independent of other trials. 2. There are only two possible outcomes of interest for each trial. The outcomes can be classified as a success (S) or as a failure (F). 3.The probability of a success P (S) is the same for each trial. 4.The random variable x counts the number of successful trials.

4 Larson & Farber, Elementary Statistics: Picturing the World, 3e 4 Notation for Binomial Experiments SymbolDescription nThe number of times a trial is repeated. p = P (S)The probability of success in a single trial. q = P (F)The probability of failure in a single trial. (q = 1 – p) xThe random variable represents a count of the number of successes in n trials: x = 0, 1, 2, 3, …, n.

5 Larson & Farber, Elementary Statistics: Picturing the World, 3e 5 Binomial Experiments Example : Decide whether the experiment is a binomial experiment. If it is, specify the values of n, p, and q, and list the possible values of the random variable x. If it is not a binomial experiment, explain why. You randomly select a card from a deck of cards, and note if the card is an Ace. You then put the card back and repeat this process 8 times. This is a binomial experiment. Each of the 8 selections represent an independent trial because the card is replaced before the next one is drawn. There are only two possible outcomes : either the card is an Ace or not.

6 Larson & Farber, Elementary Statistics: Picturing the World, 3e 6 Binomial Experiments Example : Decide whether the experiment is a binomial experiment. If it is, specify the values of n, p, and q, and list the possible values of the random variable x. If it is not a binomial experiment, explain why. You roll a die 10 times and note the number the die lands on. This is not a binomial experiment. While each trial (roll) is independent, there are more than two possible outcomes: 1, 2, 3, 4, 5, and 6.

7 Larson & Farber, Elementary Statistics: Picturing the World, 3e 7 Binomial Probability Formula In a binomial experiment, the probability of exactly x successes in n trials is Example : A bag contains 10 chips. 3 of the chips are red, 5 of the chips are white, and 2 of the chips are blue. Three chips are selected, with replacement. Find the probability that you select exactly one red chip. p = the probability of selecting a red chip q = 1 – p = 0.7 n = 3 x = 1

8 Larson & Farber, Elementary Statistics: Picturing the World, 3e 8 Binomial Probability Distribution Example : A bag contains 10 chips. 3 of the chips are red, 5 of the chips are white, and 2 of the chips are blue. Four chips are selected, with replacement. Create a probability distribution for the number of red chips selected. p = the probability of selecting a red chip q = 1 – p = 0.7 n = 4 x = 0, 1, 2, 3, 4 xP (x) 00.240 10.412 20.265 30.076 40.008 The binomial probability formula is used to find each probability.

9 Larson & Farber, Elementary Statistics: Picturing the World, 3e 9 Finding Probabilities Example : The following probability distribution represents the probability of selecting 0, 1, 2, 3, or 4 red chips when 4 chips are selected. a.) P (no more than 3) = P (x  3) = P (0) + P (1) + P (2) + P (3) x P (x) 00.24 10.412 20.265 30.076 40.008 b.) Find the probability of selecting at least 1 red chip. a.) Find the probability of selecting no more than 3 red chips. = 0.24 + 0.412 + 0.265 + 0.076 = 0.993 b.) P (at least 1) = P (x  1) = 1 – P (0) = 1 – 0.24 = 0.76 Complement

10 Larson & Farber, Elementary Statistics: Picturing the World, 3e 10 Homework Page 193-196, 5-8, 13, 15 Show your work

11 Larson & Farber, Elementary Statistics: Picturing the World, 3e 11 Page 193-196, 5-8, 13, 15 6 Yes, n=18 p=0.74, q=0.26 x can be 0-18 8 No, the probability of success on each trial is not the same, and each trial is not independent.

12 Larson & Farber, Elementary Statistics: Picturing the World, 3e 12 Graphing Binomial Probabilities Example : The following probability distribution represents the probability of selecting 0, 1, 2, 3, or 4 red chips when 4 chips are selected. Graph the distribution using a histogram. x P (x) 00.24 10.412 20.265 30.076 40.008 Selecting Red Chips 0 0.4 0.3 0.2 x Probability 0.1 0.5 0 31 Number of red chips 42 P (x)

13 Larson & Farber, Elementary Statistics: Picturing the World, 3e 13 Mean, Variance and Standard Deviation Population Parameters of a Binomial Distribution Mean : Variance : Standard deviation : Example : One out of 5 students at a local college say that they skip breakfast in the morning. Find the mean, variance and standard deviation if 10 students are randomly selected.

14 Larson & Farber, Elementary Statistics: Picturing the World, 3e 14 Homework Page 193-196, 1-4, 9, 10-18 even, 19, 21 Show your work

15 Larson & Farber, Elementary Statistics: Picturing the World, 3e 15 Homework Page 193-196, 17, 20, 22-24 show your work Page 197 case study work with a partner

16 Larson & Farber, Elementary Statistics: Picturing the World, 3e 16 Homework P

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