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The Geometric Distribution

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1 The Geometric Distribution

2 Consider the following situations:
Flip a coin until you get a head. Roll a die until you get a 3. In basketball, attempt a three-point shot until you make a basket.

3 Notice… All of these situations involve counting the number of trials until an event of interest happens. The possible values of the number of trials is an infinite set because it is theoretically possible to proceed indefinitely without ever obtaining a success.

4 The Geometric Setting Each observation falls into one of just two categories, which for convenience we call “success” or “failure.” The probability of a success, call it p, is the same for each observation. The observations are all independent. The variable of interest is the number of trials required to obtain the first success.

5 Example An experiment consists of rolling a single die. The event of interest is rolling a 3; this event is called a success. The random variable is defined as X = the number of trials until a 3 occurs. Is this a geometric setting?

6 Example Suppose you repeatedly draw cards without replacement from a deck of 52 cards until you draw an ace. There are two categories of interest: ace = success; not ace = failure. Is this a geometric setting?

7 Rule for Calculating Geometric Probabilities
If X has a geometric distribution with probability p of success and (1 – p) of failure on each observation, the possible values of X are 1, 2, 3, …. If n is any one of these values, then the probability that the first success occurs on the nth trial is:

8 Geometric Probability Distribution
A probability distribution table for the geometric random variable is strange indeed because it never ends; the number of table entries is infinite. X P(X) p (1-p)p (1-p)2p (1-p)3p (1-p)4p …

9 The mean of a Geometric Random Variable
If X is a geometric random variable with probability of success p on each trial, then the mean, or expected value, of the random variable, that is, the expected number of trials required to get the first success, is

10 Probability The probability that it takes more than n trials to see the first success is

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