1. 1)Define sample space. 2)Give the sample space for the sum of the numbers for a pair of dice. 3)You flip four coins. What’s the probability of getting exactly two heads? (Hint: List the outcomes first). 4)Joey is interested in investigating so-called hot streaks in foul shooting among basketball players. He’s a fan of Carla, who has been making approximately 80% of her free throws. Specifically, Joey wants to use simulation methods to determine Carla’s longest run of baskets on average, for 20 consecutive free throws. a) Describe a correspondence between random digits from a random digit table and outcomes. b) What will constitute one repetition in this simulation? c) Starting with line 101 in the random digit table, carry out 4 repetitions and record the longest run for each repetition. d) What is the mean run length for the 4 repetitions?

2. 6.2 Notes (2 nd ½)

3. Disjoint/Complement

4. Ex. 6.13, p. 419 1)Find the probability that the student is not in the traditional undergraduate age group of 18-23 2)Find P(30+ years) Age group (yr) 18-2324-2930-3940+ Probability.57.17.14.12

5. Venn Diagram Find P(A), P(B), P(C) Find P(A’), P(B’), P(C’)

6. Example If the chances of success for surgery A are 85% and the chances of success for surgery B are 90%, what are the chances that both will fail?

7. Venn Diagram: Union (“Or”/Addition Rule) Find: 1)P(AUB) =getting an even number or a number greater than or equal to 5 or both 2)P(AUC) =getting an even number or a number less than or equal to 3 or both 3)P(BUC)=getting a number that is at most 3 or at least 5 or both.

8. Ex. 6.14, p. 420 CLASS: Now find P(rolling a 7) Because all 36 outcomes together must have probability 1 (Rule 2), each outcome must have probability 1/36.

9. Consider the events A = {first digit is 1}, B = {first digit is 6 or greater}, and C = {a first digit is odd} a)Find P(A) and P(B) b)Find P(complement of A) c)Find P(A or B) d)Find P(C) e)Find P(B or C) Ex. 6.15, p. 421 1 st digit 123456789 Prob..301.176.125.097.079.067.058.051.046

10. Ex. 6.16, p. 422 Find the probability of the event B that a randomly chosen first digit is 6 or greater. 1 st digit 123456789 Prob.1/9

11. The probability that BOTH events A and B occur A and B are the overlapping area common to both A and B Only for INDEPENDENT events

12. Venn Diagram: Intersection (“And”/* Rule) Find: 1)P(A and B) =getting an even number that is at least 5 2)P(A and C) =getting an even number that is at most 3 3)P(B and C)=getting a number that is at most 3 and at least 5.

13. Finding the probability of “at least one” P(at least one) = 1-P(none) Many people who come to clinics to be tested for HIV don’t come back to learn the test results. Clinics now use “rapid HIV tests” that give a result in a few minutes. Applied to people who don’t have HIV, one rapid test has probability about.004 of producing a false-positive. If a clinic tests 200 people who are free of HIV antibodies, what is the probability that at least one false positive will occur? N = 200 P(positive result) =.004, so P(negative result)=1-.004=.996

14. Big Picture + Rule holds if A and B are disjoint/mutually exclusive * Rule holds if A and B are independent * Disjoint events cannot be independent! Mutual exclusivity implies that if event A happens, event B CANNOT happen.

15. Conditional probability: Pre-set condition (“given”) Find: 1)P(A given C) =getting an even number GIVEN that the number is at most 3. 2)P(A given B) =getting an even number GIVEN that the number is at least 5.

16. In building new homes, a contractor finds that the probability of a home-buyer selecting a two-car garage is 0.70 and selecting a one-car garage is 0.20. (Note that the builder will not build a three-car or a larger garage). 1)What is the probability that the buyer will select either a one-car or a two-car garage? 2)Find the probability that the buyer will select no garage. 3)Find the probability that the buyer will not want a two-car garage.