1. Bluman, Chapter 51

2. guessing Suppose there is multiple choice quiz on a subject you don’t know anything about…. 15 th Century Russian Literature; Nuclear physics etc. You have to guess on every question. There are 5 questions and each question has 4 choices. Bluman, Chapter 52

3. Let x be the score on the test. Find p(x=0) In another words the probability you will get a score of zero, i.e. you will get all the questions wrong  Find p(x=1) In another words the probability you will get a score of 1, i.e. you will get only one question correct. Bluman, Chapter 53

4. 4 Question number Correct or wrong 1 2 3 4 5

5. Repeat the process: P(2)= P(3)= p(4)= P(5)= Bluman, Chapter 55

6. What if the number of questions changed Let’s say now the test has 10 questions and each question has 4 choices. What does the probability distribution chart looks like? Bluman, Chapter 56

7. 7 xP(x) 0 1 2 3 4 5 6 7 8 9 10

8. What if the number of choices changes Let’s say now the test has 10 questions and each question has 5 choices. What does the probability distribution chart looks like? Bluman, Chapter 58

9. 9 1 2 3 4 5 6 7 8 9 10

10. 5-3 The Binomial Distribution 10 Many types of probability problems have only two possible outcomes or they can be reduced to two outcomes. Examples include: when a coin is tossed it can land on heads or tails, when a baby is born it is either a boy or girl. It will rain or it won’t A person will pass the bar exam or not.

11. The Binomial Distribution Bluman, Chapter 5 11 binomial experiment The binomial experiment is a probability experiment that satisfies these requirements: 1.Each trial can have only two possible outcomes—success or failure. 2.There must be a fixed number of trials. 3.The outcomes of each trial must be independent of each other. 4.The probability of success must remain the same for each trial.

12. Notation for the Binomial Distribution Bluman, Chapter 5 12 The symbol for the probability of success The symbol for the probability of failure The numerical probability of success The numerical probability of failure and P(F) = 1 – p = q The number of trials The number of successes P(S)P(S) P(F)P(F) p q P(S) = p n X Note that X = 0, 1, 2, 3,...,n

13. The Binomial Distribution Bluman, Chapter 5 13 In a binomial experiment, the probability of exactly X successes in n trials is

14. Chapter 5 Discrete Probability Distributions Section 5-3 Example 5-16 Page #272 Bluman, Chapter 5 14

15. Example 5-16: Survey on Doctor Visits A survey found that one out of five Americans say he or she has visited a doctor in any given month. If 10 people are selected at random, find the probability that exactly 3 will have visited a doctor last month. Bluman, Chapter 5 15

16. Chapter 5 Discrete Probability Distributions Section 5-3 Example 5-17 Page #273 Bluman, Chapter 5 16

17. Example 5-17: Survey on Employment A survey from Teenage Research Unlimited (Northbrook, Illinois) found that 30% of teenage consumers receive their spending money from part-time jobs. If 5 teenagers are selected at random, find the probability that at least 3 of them will have part-time jobs. Bluman, Chapter 5 17

18. Chapter 5 Discrete Probability Distributions Section 5-3 Example 5-18 Page #273 Bluman, Chapter 5 18

19. Example 5-18: Tossing Coins A coin is tossed 3 times. Find the probability of getting exactly two heads, using Table B. Bluman, Chapter 5 19

20. The Binomial Distribution Bluman, Chapter 5 20 The mean, variance, and standard deviation of a variable that has the binomial distribution can be found by using the following formulas.

21. Chapter 5 Discrete Probability Distributions Section 5-3 Example 5-23 Page #276 Bluman, Chapter 5 21

22. Example 5-23: Likelihood of Twins The Statistical Bulletin published by Metropolitan Life Insurance Co. reported that 2% of all American births result in twins. If a random sample of 8000 births is taken, find the mean, variance, and standard deviation of the number of births that would result in twins. Bluman, Chapter 5 22

23. Tech notes Read technology notes on page 281. Read example 5- 19 on page 274 Exercises 5.3 Page 276 #1, 5, 11, 15 and 17 Bluman, Chapter 523