Chapter 5

Chapter 5 Discrete Random Variables

Chapter Outline 5.1 Two Types of Random Variables 5.2 Discrete Probability Distributions 5.3 The Binomial Distribution 5.4 The Poisson Distribution (Optional)

5.1 Two Types of Random Variables • Random variable: a variable that assumes numerical values that are determined by the outcome of an experiment • Discrete • Continuous • Discrete random variable: Possible values can be counted or listed • The number of defective units in a batch of 20 • A rating on a scale of 1 to 5

Random Variables Continued • Continuous random variable: May assume any numerical value in one or more intervals • The waiting time for a credit card authorization • The interest rate charged on a business loan

5.2 Discrete Probability Distributions • The probability distribution of a discrete random variable is a table, graph or formula that gives the probability associated with each possible value that the variable can assume • Notation: Denote the values of the random variable by x and the value’s associated probability by p(x)

Discrete Probability Distribution Properties

Expected Value of a Discrete Random Variable The mean or expected value of a discrete random variable X is:m is the value expected to occur in the long run and on average

Variance • The variance is the average of the squared deviations of the different values of the random variable from the expected value • The variance of a discrete random variable is:

Standard Deviation • The standard deviation is the positive square root of the variance • The variance and standard deviation measure the spread of the values of the random variable from their expected value

Example Table 5.2

Example Continued

5.3 The Binomial Distribution • The binomial experiment… • Experiment consists of n identical trials • Each trial results in either “success” or “failure” • Probability of success, p, is constant from trial to trial • Trials are independent • If x is the total number of successes in n trials of a binomial experiment, then x is a binomial random variable

Binomial Distribution Continued

Example 5.9

p = 0.1 Binomial Probability Table values of p (.05 to .50) values of p (.05 to .50) P(x = 2) = 0.0486 Table 5.7 (a)

Several Binomial Distributions Figure 5.6

Mean and Variance of a Binomial Random Variable

Example

5.4 The Poisson Distribution (Optional) • Consider the number of times an event occurs over an interval of time or space, and assume that • The probability of occurrence is the same for any intervals of equal length • The occurrence in any interval is independent of an occurrence in any non-overlapping interval • If x = the number of occurrences in a specified interval, then x is a Poisson random variable

The Poisson Distribution Continued

Poisson Probability Table Table 5.9

Poisson Probability Calculations Table 5.10

Mean and Variance of a Poisson Random Variable • Mean mx = m • Variance s2x = m • Standard deviation sx is square root of variance s2x

Several Poisson Distributions Figure 5.9

Chapter 5

Chapter 5

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Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5 5

chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

CHAPTER 5

Chapter 5

CHAPTER 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5

Chapter 5