Chapter 4 Lecture 2 Section: 4.3. Addition Rule We will now consider compound events. Previously we considered simple events. Compound Event: is any event.

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Chapter 4 Lecture 2 Section: 4.3

Addition Rule We will now consider compound events. Previously we considered simple events. Compound Event: is any event combining two or more simple events. Thus, we will find probabilities of compound events. P(A or B) = P(event A occurs or event B occurs or they both occur) One thing that we must do is find the total in such a way that no outcome is counted more than once.

P(A or B) = P(A) + P(B) – P(A and B) is the same as “ A or B” = The union of sets A, B. We will refer to it as all the elements of the two sets put together, without double counting. “and” = The intersection of sets A, B. We will refer to it as the set that combines the common elements of set A, B. Overlapping Events Common Elements Disjoint Mutually Exclusive A B

Mutually Exclusive or Disjoint: Events that cannot occur at the same time. They do not occur together. 1.Let event A = Flipping a coin and getting Tails. Let event B= Flipping a coin and getting Heads. Are events A and B mutually exclusive? 2.Let event A=A student transferring to UCLA. Let event B=A student majoring in History. Are events A and B mutually exclusive? 3.Let P( A and B ) = 0, are sets A and B mutually exclusive?

A standard deck of cards contains 52 cards. There are 4 suits in the deck each with 13 cards. 13 Spades ♠(Black), 13 Clubs ♣(Black), 13 Hearts ♥(Red), 13 Diamonds ♦(Red). Refer to next slide. Example: What is the probability of randomly selecting a heart or spade from a deck of cards? Formal Addition Rule: P(A or B) = P(A) + P(B) – P(A and B) where P(A and B) denotes the probability that A and B both occur at the same time as an outcome in a trial of a procedure. *Note: In the example above, the P(A and B) = 0 because in a deck of cards, a card cannot be a spade and a heart. (mutually exclusive events)

Recall that a standard deck of cards contains 52 cards. There are 4 suits in the deck each with 13 cards. 13 Spades ♠(Black), 13 Clubs ♣(Black),13 Hearts ♥(Red), 13 Diamonds ♦(Red). There are also face values to the cards. There are 13 cards to each suit and the values are 2 – 10, J for Jack, Q for Queen, K for King and A for Ace. This tells us that there are 4 of each face value. One for each suit. Example: What is the probability of randomly selecting a spade or a King from a deck of cards? P(Spade or King) = P(Spade) + P(King) – P(Spade and King)

3. What is the probability of randomly selecting an Ace or a club from a deck of cards? 4. What is the probability of randomly selecting a heart or a 6 of hearts from a deck of cards?

5. The table below summarizes results from a study of 600 randomly selected deaths of males aged 45–64. The men were either smokers or nonsmokers and their cause of death was either Cancer or Heart Disease. CancerHeart Disease Total Smoker Nonsmoker Total If 1 of the 600 subjects is randomly selected, find the probability of getting: a. Someone who was a nonsmoker or died of Cancer. b. Someone who was a smoker or died of Cancer.

CancerHeart Disease Total Smoker Nonsmoker Total If 1 of the 600 subjects is randomly selected, find the probability of getting: c. Someone who is not a smoker. d. Someone who did not die of Cancer. e. Someone who was a smoker and dies of Heart Disease. f. Someone who was a smoker and someone who was a nonsmoker

6. The table below summarizes results from a survey of 120 randomly selected college students. It states gender and political affiliation. DemocratRepublicanTotal Male Female Total The survey consists of 40 males. 48 students who have a political affiliation of Republican. 59 females that have a political affiliation of Democrat. Lastly, 72 total Democrats. If 1 of the 120 subjects is randomly selected, find the probability of getting: a. Someone who is Female. b. Someone who is not a Democrat. c. Someone who is a Male or Republican.d. Someone who is a Male and a Democrat

Recall the complement of Event E. Sample Space P(E) The total area here is 1 or 100%. In terms of probability,. An other way to see this is This is the Rule of Complementary Events.

7. In a poll of college students, it was found that 35.6% bring an mp3 player to school. Find P(mp3). 8. In a recent survey, 40% of people prefer Pepsi, 45% prefer Coca-Cola and 15% prefer Dr. Pepper. Find P(Coca-Cola). 9. Find P(A) if P(A or B)=0.56, P(B)=0.3 and P(A and B)=0.27

Recap We discussed the following in the lecture:  Compound events.  Formal addition rule.  Intuitive addition rule.  Disjoint events.  Complementary events.