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1 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Chapter 3 M A R I O F. T R I O L A Copyright © 1998, Triola, Elementary Statistics, Addison Wesley Longman
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2 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Chapter 3 Probability 3-1 Overview* 3-2 Fundamentals 3-3 Addition Rule 3-4 & 5Multiplication Rule 3-6 Probabilities Through Simulations* 3-7 Counting * Reading Material
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3 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Chapter 3 Overview Objectives develop sound understanding of probability values used in subsequent chapters develop basic skills necessary to solve simple probability problems
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4 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment - any process to obtain observations Event - any collection of results or outcomes of an experiment Simple event - any outcome or event that cannot be broken down any further Sample space - all possible simple events 3-2 Fundamentals Definitions
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5 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1} One Example
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6 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5} One Example
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7 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6} One Example
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8 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3} One Example
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9 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} One Example
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10 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events One Example
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11 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1} One Example
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12 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2} One Example
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13 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3} One Example
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14 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3}, {4} One Example
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15 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3}, {4}, {5} One Example
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16 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3}, {4}, {5}, {6} One Example
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17 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3}, {4}, {5}, {6} Sample space One Example
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18 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Experiment Toss a fair dice Events {1}, {5}, { 2, 4, 6}, {2, 3}, {1, 2, 3,5} Simple events {1}, {2}, {3}, {4}, {5}, {6} Sample space {1, 2, 3, 4, 5, 6} One Example
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19 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Notation P - denotes a probability A, B,... - denote a specific event P(A) - denotes the probability of an event occurring
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20 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Two Basic Rules for Computing Probability Rule 1: Relative frequency approximation Conduct an experiment a large number of times and count the number of times event A actually occurs, then the estimate of P(A) is
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21 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Two Basic Rules for Computing Probability Rule 1: Relative frequency approximation Conduct an experiment a large number of times and count the number of times event A actually occurs, then the estimate of P(A) is P(A) = number of times A occurred number of times experiment repeated
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22 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Two Basic Rules for Computing Probability Rule 2: Classical approach If experiment has n different simple events, each with an equal chance of occurring, and s is the number of ways event A can occur, then
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23 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Two Basic Rules for Computing Probability Rule 2: Classical approach If experiment has n different simple events, each with an equal chance of occurring, and s is the number of ways event A can occur, then P(A) = number of ways A can occur number of simple events experiment repeated s n
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24 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Rule 1 The relative frequency approach is an approximation. Rule 2 The classical approach is the actual probability.
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25 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Example: Toss a fair coin Rule 2: Two simple events, face up or face down, equal chance P(face up) = 1/2 =.5 Rule 1: Toss the coin 100 times, the face comes up 47 times P(face up) = 47/100 =.47
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26 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Example: Toss a fair dice Rule 2: Six simple events, {1}, {2} {3}, {4}, {5} & {6}, equal chance P(face up) = 1/6 =.16666 Rule 1: Toss the dice 100 times, face 1 comes up 18 times P(face up) = 18/100 =.18
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27 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Law of Large Numbers As an experiment is repeated again and again, the relative frequency probability (from Rule 1) of an event tends to approach the actual probability.
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28 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Illustration of Law of Large Numbers 0 204060 80 100 120 0.1 0.2 0.3 0.4 0.5 0.6 Proportion of Girls Number of Births Figure
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29 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Limits The probability of an impossible event is 0.
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30 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Limits The probability of an impossible event is 0. The probability of an event that is certain to occur is 1.
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31 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Limits The probability of an impossible event is 0. The probability of an event that is certain to occur is 1. 0 P(A) 1
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32 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Limits The probability of an impossible event is 0. The probability of an event that is certain to occur is 1. 0 P(A) 1 Impossible to occur
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33 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Probability Limits The probability of an impossible event is 0. The probability of an event that is certain to occur is 1. 0 P(A) 1 Impossible to occur Certain to occur
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34 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Possible Values for Probabilities Certain Likely 50-50 Chance Unlikely Impossible 1 0.5 0 Figure
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35 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Complementary Events
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36 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Complementary Events The complement of event A, denoted by A, consists of all outcomes in which event A does not occur.
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37 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman P(A) Complementary Events The complement of event A, denoted by A, consists of all outcomes in which event A does not occur. P(A) (read “not A”)
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38 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Rounding Off Probabilities give the exact fraction or decimal
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39 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Rounding Off Probabilities give the exact fraction or decimal or round off the final result to three significant digits
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40 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Subjective Probability A guessed or estimated probability based on knowledge of relevant circumstances.
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41 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Odds
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42 Copyright © 1998, Triola, Elementary Statistics Addison Wesley Longman Odds the odds in favor of event A are the reciprocal of the odds against that event, b:a (or ‘b to a’) the odds against event A occurring are the ratio P(A) / P(A), usually expressed in the form of a:b (or ‘a to b’), where a and b are integers with no common factors
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