Unit 7 Probability M2 13.1,2,4, 5,6

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+ Unit 7 Probability M2 13.1,2,4, 5,6

7.1 Probability n Obj.: I will be able to determine the experimental and theoretical probabilities of an event, or its complement, occurring. n Vocabulary o Outcome o Event o Sample Space o Probability o Experimental Probability o Theoretical Probability o Complement of an Event o

7.1 Probability n Outcomes n An outcome is the possible result of a situation or experiment. n An event may be a single outcome or a group of outcomes n The set of all possible outcomes is the sample space

7.1 Probability n Probabilities n Probability n A numerical value from 0 to 1 that measures the likelihood of an event n Notation: P(event) n

7.1 Probability n Experimental Probability n The likelihood that an event occurs based on the actual results of an experiment n n Theoretical Probability n The likelihood of an event based on mathematical reasoning

7.1 Probability n Complement of an event n Consists of all the possible outcomes in the sample space that are not part of the event. n Probability of a Complement n The sum of the probability of an event and its complement is 1 n Notation: P(not event) n P(event) +P(not event) = 1 P(not event) = 1 - P(event)

7.1 Probability - Practice

7.2 Tables n Obj.: I will be able to read frequency tables and two-way frequency tables. I will be able to determine relative frequencies, probability distributions, and conditional probabilities of events. n Vocabulary o Frequency o Relative Frequency o Probability Table Distribution o Two-Way Frequency Table o Conditional Probability

7.2 Tables n Frequency Tables n Displays data that shows how often an item appears in a category n Relative Frequency n Relative frequency is the ratio of the frequency of the category to the total frequency n Can be used to approximate probabilities of events

7.2 Tables n Probability Distribution n Shows the probability of each possible outcome. n Can be shown in a frequency table n Two-Way Frequency Tables n A.k.a. contingency table n Frequencies of data in two different categories

7.2 Tables n Conditional Probability n The probability that an event will occur given that another event has already occurred n Probability of event B given that event A has occurred: P(B A)

7.2 Tables - Practice

7.2 Tables - Practice

7.3 Compound Probabilities n Compound Events n Events that are made up of two or more events n If the occurrence of an event does not affect how another event occurs, the events are called independent events. n If the occurrence of an event does affect how another event occurs, the events are called dependent events. n Two events are independent if and only if P(A and B) = P(A) * P(B)

7.3 Compound Probabilities n Mutually Exclusive Events n Events that cannot happen at the same time n The probability of both A and B occurring is 0. n If A and B are mutually exclusive events, then P(A and B) = 0, and P(A or B) = P(A) + P(B) n Overlapping Events n Events with outcomes in common. n If A and B are overlapping events, then P(A or B) = P(A)+ P(B) - P(A and B)

7.3 Compound Probabilities - Practice

7.4 Conditional Probabilities n Obj.: I will be able to calculate the conditional probability of events without a table. I will be able to determine if two events are independent using conditional probabilities.

7.4 Conditional Probabilities n Conditional Probabilities n For any two events A and B, the probability of B occurring, given that A has occurred, is n Not reversible à P(B A) P(A B) n The formula for conditional probabilities can be rearranged to solve for the probability of two events occurring when you k now the conditional probability: P(A and B) = P(A)*P(B A)

7.4 Conditional Probabilities n Independent Events n Two events A and B are independent events if and only if P(A B) = P(A) and P(B A) = P(B)

7.4 Conditional Probabilities - Practice

7.4 Conditional Probabilities - Practice

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