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Binomial Probability Distribution

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1 Binomial Probability Distribution
Section 4-3 Binomial Probability Distribution

2 BINOMIAL PROBABILITY DISTRTIBUTION
The binomial probability distribution results from a procedure that meets all the following requirements: The procedure has a fixed number of trials. The trials must be independent. (The outcome of any individual trial doesn’t affect the probabilities in the other trials.) Each trial must have all outcomes classified into two categories. These categories are usually “success” or “failure”. The probabilities must remain constant for each trial.

3 NOTATION FOR BINOMIAL PROBABILITY DISTRIBUTIONS
“S” and “F” (success and failure) denote the two possible categories of all outcomes; p will denote the probability of “S” and q will denote the probability of “F”. That is, P(S) = p (p = probability of success) P(F) = 1 − p = q (q = probability of failure)

4 NOTATION (CONCLUDED) n denotes the fixed number of trials
x denotes the number of successes in n trials, so x can be any number between 0 and n, inclusive. p denotes the probability of success in one of the n trials. q denotes the probability of failure in one of the n trials. P(x) denotes the probability of getting exactly x successes among the n trials.

5 EXAMPLES Identify success, failure, n, p, and q for the questions below. We will answer the questions later. 1. If the probability is 0.70 that a student with very high grades will get into law school, what is the probability that three of five students with very high grades will get into law school? 2. The probability is 0.60 that a person shopping in a certain market will spend $25 or more. Find the probability that among eight persons shopping at this market, at least 6 will spend $25 or more.

6 IMPORTANT CAUTIONS Be sure that x and p both refer to the same category being called a success. When sampling without replacement, the events can be treated as if they were independent if the sample size is no more than 5% of the population size. (That is, n ≤ 0.05N.)

7 THREE METHODS FOR FINDING BINOMIAL PROBABILITIES
Using the Binomial Probability Formula. Using Table A-1 located in Appendix A on pages Using the TI-83/84 calculator.

8 METHOD 1: THE BINOMIAL PROBABILITY FORMULA
where n = number of trials x = number of successes in n trials p = probability of success in any one trial q = probability of failure in any one trial (q = 1 − p) This formula can also be written as

9 EXAMPLE If the probability is 0.70 that a student with very high grades will get into law school, what is the probability that three of five students with very high grades will get into law school? Use the Binomial Probability Formula.

10 METHOD 2: USING TABLE A-1 IN APPENDIX A
Part of Table A-1 is shown below. With n = 4 and p = 0.2 in the binomial distribution, the probabilities of 0, 1, 2, 3, and 4 successes are 0.410, 0.410, 0.154, 0.026, and respectively.

11 EXAMPLE The probability is 0.60 that a person shopping in a certain market will spend $25 or more. Find the probability that among eight persons shopping at this market, at least 6 will spend $25 or more. Use Table A-1.

12 METHOD 3: USING THE TI-83/84 CALCULATOR
Press 2nd VARS (to get DISTR) Select option 0:binompdf(. Complete the entry of binompdf(n,p,x) with specific values for n, p, and x. Press ENTER, and the result will be the probability of getting x successes in n trials; that is, P(x). NOTE: For more information on “binompdf(” see the Using Technology box on page 186.

13 EXAMPLE Use your calculator to compute the probability of 3 successes in 10 trials if the probability of success is 0.4.

14 MATHEMATICAL TRANSLATIONS OF ENGLISH PHRASES
Math Symbol “at least” or “no less than” “more than” or “greater than” > “fewer than” or “less than” < “no more than” or “at most” “exactly” =

15 EXAMPLE According to Nielson Media Research, 75% of all United States households have cable television. In a random sample of 15 households, what is the probability that exactly 10 have cable? In a random sample of 15 households, what is the probability that at least 13 have cable? In a random sample of 15 households, what is the probability that fewer than 13 have cable?

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