Slide 1

Probability Models Binomial, Geometric, and Poisson Probability Models

Slide 2

Binomial Random Variables Binomial Probability Distributions

Slide 3

Binomial Random Variables Through 2/10/2015 NC States free-throw percentage is 67.4% (231 st out 351 in Div. 1). If in the 2/11/2015 game with UVA, NCSU shoots 11 free-throws, what is the probability that: NCSU makes exactly 8 free-throws? NCSU makes at most 8 free throws? NCSU makes at least 8 free-throws?

Slide 4

2-outcome situations are very common Heads/tails Democrat/Republican Male/Female Win/Loss Success/Failure Defective/Nondefective

Slide 5

Probability Model for this Common Situation Common characteristics repeated trials 2 outcomes on each trial Leads to Binomial Experiment

Slide 6

Binomial Experiments n identical trials n specified in advance 2 outcomes on each trial usually referred to as success and failure p success probability; q=1-p failure probability; remain constant from trial to trial trials are independent

Slide 7

Classic binomial experiment: tossing a coin a pre-specified number of times Toss a coin 10 times Result of each toss: head or tail (designate one of the outcomes as a success, the other as a failure; makes no difference) P(head) and P(tail) are the same on each toss trials are independent if you obtained 9 heads in a row, P(head) and P(tail) on toss 10 are same as P(head) and P(tail) on any other toss (not due for a tail on toss 10)

Slide 8

Binomial Random Variable The binomial random variable X is the number of successes in the n trials Notation: X has a B(n, p) distribution, where n is the number of trials and p is the success probability on each trial.

Slide 9

Binomial Probability Distribution

Slide 10

P(x) = p x q n-x n !n ! ( n x )! x ! Number of outcomes with exactly x successes among n trials Rationale for the Binomial Probability Formula

Slide 11

P(x) = p x q n-x n !n ! ( n x )! x ! Number of outcomes with exactly x successes among n trials Probability of x successes among n trials for any one particular order Binomial Probability Formula

Slide 12

Graph of p(x); x binomial n=10 p=.5; p(0)+p(1)+ +p(10)=1 Think of p(x) as the area of rectangle above x p(5)=.246 is the area of the rectangle above 5 The sum of all the areas is 1

Slide 13

Slide 14

Slide 15

Binomial Distribution Example: Pepsi vs Coke In a taste test of Pepsi vs Coke, suppose 25% of tasters can correctly identify which cola they are drinking. If 12 tasters participate in a test by drinking from 2 cups in which 1 cup contains Coke and the other cup contains Pepsi, what is the probability that exactly 5 tasters will correctly identify the colas?

Slide 16

16 Binomial Distribution Example Shanille OKeal is a WNBA player who makes 25% of her 3- point attempts. Assume the outcomes of 3-point shots are independent. 1. If Shanille attempts 7 3-point shots in a game, what is the expected number of successful 3-point attempts? 2. Shanilles cousin Shaquille ONeal makes 10% of his 3-point attempts. If they each take 12 3-point shots, who has the smaller probability of making 4 or fewer 3-point shots? Shanille has the smaller probability.

Slide 17

Using binomial tables; n=20, p=.3 P(x 5) =.4164 P(x > 8) = 1- P(x 8)= 1-.8867=.1133 P(x < 9) = ? P(x 10) = ? P(3 x 7)=P(x 7) - P(x 2).7723 -.0355 =.7368 9, 10, 11, , 20 8, 7, 6, , 0 =P(x 8) 1- P(x 9) = 1-.9520

Slide 18

Binomial n = 20, p =.3 (cont.) P(2 < x 9) = P(x 9) - P(x 2) =.9520 -.0355 =.9165 P(x = 8) = P(x 8) - P(x 7) =.8867 -.7723 =.1144

Slide 19

Color blindness The frequency of color blindness (dyschromatopsia) in the Caucasian American male population is estimated to be about 8%. We take a random sample of size 25 from this population. We can model this situation with a B(n = 25, p = 0.08) distribution. What is the probability that five individuals or fewer in the sample are color blind? Use Excels =BINOMDIST(number_s,trials,probability_s,cumulative) P(x 5) = BINOMDIST(5, 25,.08, 1) = 0.9877 What is the probability that more than five will be color blind? P(x > 5) = 1 P(x 5) =1 0.9877 = 0.0123 What is the probability that exactly five will be color blind? P(x = 5) = BINOMDIST(5, 25,.08, 0) = 0.0329

Slide 20

Probability distribution and histogram for the number of color blind individuals among 25 Caucasian males. B(n = 25, p = 0.08)

Slide 21

What are the mean and standard deviation of the count of color blind individuals in the SRS of 25 Caucasian American males? = np = 25*0.08 = 2 = np(1 p) = (25*0.08*0.92) = 1.36 p =.08 n = 10 p =.08 n = 75 = 10*0.08 = 0.8 = 75*0.08 = 6 = (10*0.08*0.92) = 0.86 = (75*0.08*0.92) = 2.35 What if we take an SRS of size 10? Of size 75?

Slide 22

Recall Free-throw question Through 2/10/15 NC States free-throw percentage was 67.4% (231 st in Div. 1). If in the 2/11/15 game with UVA, NCSU shoots 11 free- throws, what is the probability that: 1.NCSU makes exactly 8 free-throws? 2.NCSU makes at most 8 free throws? 3.NCSU makes at least 8 free-throws? 1. n=11; X=# of made free-throws; p=.674 p(8)= 11 C 8 (.674) 8 (.326) 3 =.243 2. P(x 8)=.750 3. P(x 8)=1-P(x 7) =1-.5064 =.4936

Slide 23

23 Geometric Random Variables Geometric Probability Distributions Through 2/10/2015 NC States free-throw percentage is 67.4 (231 st of 351 in Div. 1). In the 2/11/2015 game with UVA what is the probability that the first missed free- throw by the Pack occurs on the 5 th attempt?

Slide 24

24 Binomial Experiments n identical trials n specified in advance 2 outcomes on each trial usually referred to as success and failure p success probability; q=1-p failure probability; remain constant from trial to trial trials are independent The binomial rv counts the number of successes in the n trials

Slide 25

25 The Geometric Model A geometric random variable counts the number of trials until the first success is observed. A geometric random variable is completely specified by one parameter, p, the probability of success, and is denoted Geom(p). Unlike a binomial random variable, the number of trials is not fixed

Slide 26

26 The Geometric Model (cont.) Geometric probability model for Bernoulli trials: Geom(p) p = probability of success q = 1 p = probability of failure X = # of trials until the first success occurs p(x) = P(X = x) = q x-1 p, x = 1, 2, 3, 4,

Slide 27

27 Example The American Red Cross says that about 11% of the U.S. population has Type B blood. A blood drive is being held in your area. 1. How many blood donors should the American Red Cross expect to collect from until it gets the first donor with Type B blood? Success=donor has Type B blood X=number of donors until get first donor with Type B blood

Slide 28

28 Example (cont.) The American Red Cross says that about 11% of the U.S. population has Type B blood. A blood drive is being held in your area. 2. What is the probability that the fourth blood donor is the first donor with Type B blood?

Slide 29

29 Example (cont.) The American Red Cross says that about 11% of the U.S. population has Type B blood. A blood drive is being held in your area. 3. What is the probability that the first Type B blood donor is among the first four people in line?

Slide 30

30

Slide 31

31

Slide 32

32 Example Shanille OKeal is a WNBA player who makes 25% of her 3-point attempts. 1. The expected number of attempts until she makes her first 3-point shot is what value? 2. What is the probability that the first 3-point shot she makes occurs on her 3 rd attempt?

Slide 33

Question from first slide Through 2/10/2015 NC States free-throw percentage was 67.4%. In the 2/11/2015 game with UVA what is the probability that the first missed free-throw by the Pack occurs on the 5 th attempt? Success = missed free throw Success p = 1 -.674 =.326 p(5) =.674 4 .326 =.0673 33

Slide 34

34 Poisson Probability Models The Poisson experiment typically models situations where rare events occur over a fixed amount of time or within a specified region Examples The number of cellphone calls per minute arriving at a cellphone tower. The number of customers per hour using an ATM The number of concussions per game experienced by the participants.

Slide 35

Slide 36

36 Properties of the Poisson experiment 1)The number of successes (events) that occur in a certain time interval is independent of the number of successes that occur in another time interval. 2)The probability of a success in a certain time interval is the same for all time intervals of the same size, proportional to the length of the interval. 3)The probability that two or more successes will occur in an interval approaches zero as the interval becomes smaller. Poisson Experiment

Slide 37

37 The Poisson Random Variable The Poisson random variable X is the number of successes that occur during a given time interval or in a specific region Probability Distribution of the Poisson Random Variable.

Slide 38

Poisson Prob Dist =1

Slide 39

Poisson Prob Dist =5

Slide 40

40 Example Cars arrive at a tollbooth at a rate of 360 cars per hour. What is the probability that only two cars will arrive during a specified one-minute period? The probability distribution of arriving cars for any one- minute period is Poisson with = 360/60 = 6 cars per minute. Let X denote the number of arrivals during a one-minute period.

Slide 41

41 Example (cont.) What is the probability that at least four cars will arrive during a one-minute period? P(X>=4) = 1 - P(X