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Chapter 3 Section 3.3 Basic Rules of Probability.

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Presentation on theme: "Chapter 3 Section 3.3 Basic Rules of Probability."— Presentation transcript:

1 Chapter 3 Section 3.3 Basic Rules of Probability

2 Numbers and Probability We have previously said that the probability of and event is the ration between the number of equally likely outcomes in the event E over the number of equally likely outcomes in the sample space S. Facts About the Probability of an Event E 1. The probability of an event E is a fraction, decimal or percentage. In other words it is a number. a. The probability number has to be between 0 and 1 if it is a fraction or decimal (i.e. 0  P(E)  1). b. The probability number has to be between 0% and 100% if it is a percentage (i.e. 0%  P(E)  100%). 2. The probability of E is zero (i.e. P(E) = 0 or P(E) = 0%) means it is impossible for the event to happen. 3. The probability of E is one (i.e. P(E) = 1 or P(E) = 100%) means the event is certain to happen.

3 Representing Experiments in Venn Diagrams In experiments that have more than one event associated with them we can fill in the corresponding regions in the Venn Diagram with any one of the following: a. The number of outcomes in the region. b. The percentage of outcomes in the region. c. The fraction of outcomes in that region. d. The decimal of outcomes in that region. S F Example: Consider the experiment of flipping three coins. The sample space for this event is: { HHH, HHT, HTH, HTT, THH, THT, TTH, TTT }. There are two events associated with this: F : The first coin is a head (H) A : All coins are the same A 1 1 3 3 S F A 37.5% S F A S F A 12.5%.375.125 number percentage fraction decimal S F A elements HHH TTT HTH HHT HTT THH THT TTH

4 S A B 2 3 4 1 Experiment 1 S A B 30% 15% 45% 10% Experiment 2 S A B Experiment 3 S A B.1.6.2.1 Experiment 4 For each of the four experiments above fill in the table below. Do you notice any patterns ? P(A)P(B) P(A ∩ B) P(A  B) P(A')P(B') Experiment 1 Experiment 2 Experiment 3 Experiment 4 45% 60% 15%90% 55% 40%.7.8.6.9.3.2 P(A) + P(B) = P(A ∩ B) + P(A  B) The chance that A happens plus the chance B happens is equal to the chance they both happen plus the chance either happens. P(A) + P(A') =1 (or 100%) P(B) + P(B') =1 (or 100%) The chance an event occurs plus the chance it will not occur is 1 (or 100%).

5 In a certain experiment there are two events that can happen A and B. In this experiment P(A) =.4 and P(B) =.7 and P(A  B) =.9, use this to answer each of the questions below. Before we begin we attempt to draw the Venn Diagram. But in order to do that we need to get P(A ∩ B) but we were given the P(A  B). We use the previous relationship to find this. P(A) + P(B) = P(A∩B) + P(A  B).4 +.7 = P(A ∩ B) +.9 1.1 = P(A ∩ B) +.9 P(A ∩ B) =.2 S A B.2.5.1 P(A ∩ (B')) = P((A') ∩ B) = P((A  B)') =.2.5.1 Mutually Exclusive Events Two events are called mutually exclusive if they can not both happen at the same time. For example if you flip a coin you can not get both a head and a tail, so a head and tail are mutually exclusive. In terms of numbers: P(A ∩ B) = 0or P(A) + P(B) = P(A  B)

6 A researcher has 50 rats. He feeds 25 of them a high fat diet for six months and the others he feeds normally. After six months he examines all the rats for signs of cardiovascular disease and finds that 32 have the disease. Of the 32 rats with cardiovascular disease he finds that 21 of them were given a high fat diet. An experiment is conducted where a rat from this group is picked at random. Let F be the event the rat was fed a high fat diet and C be the event the rat has cardiovascular disease. Find each of the probabilities below. Before we begin we draw a Venn Diagram P(C) = The chance a rat develops cardiovascular disease = P(F ∩ C) = The chance a rat was fed a high fat diet and has disease = P(F ∩ (C')) = The chance a rat has a high fat diet and does not have disease = P((F') ∩ C) = The chance a rat was not fed a high fat diet and gets the disease = P((F  C)') = The chance a rat was neither fed a high fat diet nor has disease = S F C 21 4 14 11

7 Another way the numerical information can be organized is in the form of a table. In the problem below use the table of information to answer each of the questions below. The results of a survey in which 200 people were asked if they were married ( M ) or unmarried ( U ) and if they were a smoker ( S ) or non- smoker ( N ) are given to the right. An experiment is conducted were a person is selected at random from this group. Married ( M ) Unmarried ( U ) Smoker ( S ) 2342 Non-Smoker ( N ) 9441 P (The person is a smoker) = P (The person is unmarried) = P (The person is married and a non-smoker) = P (The person is either unmarried or a non-smoker) = P (The person is neither married nor a smoker) =


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