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Probability Distributions (Discrete Variables)

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1 Probability Distributions (Discrete Variables)
5 Probability Distributions (Discrete Variables) Copyright © Cengage Learning. All rights reserved.

2 Copyright © Cengage Learning. All rights reserved.
5.1 Random Variables Copyright © Cengage Learning. All rights reserved.

3 Random Variables A random variable assumes a unique numerical value for each of the outcomes in the sample space of a probability experiment. This numerical value is the random variable value. In other words, a random variable is used to denote the outcomes of a probability experiment. The random variable can take on any numerical value that belongs to the set of all possible outcomes of the experiment. (It is called “random” because the value it assumes is the result of a chance, or random event.)

4 Random Variables Each event in a probability experiment must also be defined in such a way that only one value of the random variable is assigned to it (mutually exclusive events), and every event must have a value assigned to it (all-inclusive events). Numerical random variables can be subdivided into two classifications: discrete random variables and continuous random variables.

5 Random Variables Discrete Random Variable
A quantitative random variable that can assume a countable number of values. Continuous Random Variable A quantitative random variable that can assume an uncountable number of values.

6 Random Variables The following illustrations demonstrate random variables. • We toss five coins and observe the “number of heads” visible. The random variable x is the number of heads observed and may take on integer values from 0 to 5. (A discrete random variable.) • Let the “number of phone calls received” per day by a company be the random variable. Integer values ranging from zero to some very large number are possible values. (A discrete random variable.)

7 Random Variables • Let the “length of the cord” on an electrical appliance be a random variable. The random variable is a numerical value between 12 and 72 inches for most appliances. (A continuous random variable.) • Let the “qualifying speed” for racecars trying to qualify for the Indianapolis 500 be a random variable. Depending on how fast the driver can go, the speeds are approximately and faster and are measured in miles per hour (to the nearest thousandth of a mile). (A continuous random variable.)

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