Presentation is loading. Please wait.

Presentation is loading. Please wait.

Probability of Compound Events

Published byJemimah Adams Modified over 9 years ago

Similar presentations

Presentation on theme: "Probability of Compound Events"— Presentation transcript:

1 Probability of Compound Events
Lesson 12-9 Pages Probability of Compound Events

2 What you will learn! How to find the probability of independent and dependent events. How to find the probability of mutually exclusive events.

3 Mutually exclusive events
Vocabulary Compound events Independent events Dependent events Mutually exclusive events

4 What you really need to know!
Probability of Two Independent Events Found by multiplying the probability of the first event by the probability of the second event P(A and B) = P(A) • P(B)

5 What you really need to know!
Probability of Two Dependent Events Is the product of the probability of A and the probability of B after A occurs P(A and B) = P(A) • P(B following A)

6 What you really need to know!
Probability of Mutually Exclusive Events Found by adding the probability of the first event to the probability of the second event P(A or B) = P(A) + P(B)

7

8 Example 1: In a popular dice game, the highest possible score in a single turn is a roll of five of a kind. After rolling one five of a kind, every other five of a kind you roll earns 100 points. What is the probability of rolling two five of a kinds in a row?

9 When rolling 5 die, there are 65 possible outcomes. 7,776.
Example 1: These events are independent. Each roll of the dice does not affect the outcome of the next roll. When rolling 5 die, there are 65 possible outcomes. 7,776. There are 6 ways to get 5 of a kind.

10 Example 1: The probability of rolling one 5 of a kind is 6 : 7,776 which means 1 : 1,296 Two in a row would be:

11 Example 2: Charlie’s clothes closet contains 3 blue shirts, 10 white shirts, and 7 striped shirts. What is the probability that Charlie will reach in and randomly select a white shirt followed by a striped shirt?

12 Example 2: These events are dependent. The selection of the first shirt reduces the number of shirts to pick from. 7 striped shirts 10 white shirts 20 shirts in all 19 shirts left

13 Example 3: You draw a card from a standard deck of playing cards. What is the probability that the card will be a black nine or any heart?

14 Example 3: The events are mutually exclusive because the card can not be both a black nine and a heart at the same time. 13 hearts 2 black nines 52 cards in deck 52 cards in deck

15 Page 653 Guided Practice #’s 4-10

16

17 Pages 650-652 with someone at home and study examples!
Read: Pages with someone at home and study examples!

18 #’s 11-18, 21-28, 33, 34, 36-50 Homework: Pages 653-655
Lesson Check 12-9

19

20

21

22

23

24 Page 755 Lesson 12-9

25 P(13 or even)

26 (Odd answers in back of book)
Study Guide and Review Pages #’s 1-30 or 19-30 (Odd answers in back of book)

27

28

29

30

31

32

33

34

35

36

37 Prepare for Test! Page 663 #’s 1-20 or 10-20 Lesson Check 12-9

38

39

40

41 Prepare for Test! Pages #’s 1-19

42

43

44

45

46

47

48

49

Download ppt "Probability of Compound Events"

Similar presentations

For independent events, the occurrence of one event has no effect on the probability that a second event will occur. For dependent events, the occurrence.

For independent events, the occurrence of one event has no effect on the probability that a second event will occur. For dependent events, the occurrence.
How likely something is to happen.

How likely something is to happen.
Probability Sample Space Diagrams.

Probability Sample Space Diagrams.
Multiplication Rules for Probability Independent Events Two events are independent if the fact that A occurs does not affect the probability of B occuring.

Multiplication Rules for Probability Independent Events Two events are independent if the fact that A occurs does not affect the probability of B occuring.
PROBABILITY Probability is represented as a ratio of the number of ways an event actually occurs compared to the number of possible outcomes.

PROBABILITY Probability is represented as a ratio of the number of ways an event actually occurs compared to the number of possible outcomes.
Dependent and Independent Events. If you have events that occur together or in a row, they are considered to be compound events (involve two or more separate.

Dependent and Independent Events. If you have events that occur together or in a row, they are considered to be compound events (involve two or more separate.
13-4 Compound Probability

13-4 Compound Probability
Laws of Probability What is the probability of throwing a pair of dice and obtaining a 5 or a 7? These are mutually exclusive events. You can’t throw.

Laws of Probability What is the probability of throwing a pair of dice and obtaining a 5 or a 7? These are mutually exclusive events. You can’t throw.
Section 4.3 The Addition Rules for Probability

Section 4.3 The Addition Rules for Probability
What is the probability of the following: Answer the following: 1. Rolling a 4 on a die 2. Rolling an even number on a die 3. Rolling a number greater.

What is the probability of the following: Answer the following: 1. Rolling a 4 on a die 2. Rolling an even number on a die 3. Rolling a number greater.
Chapter 12 – Probability and Statistics 12.5 – Adding Probabilities.

Chapter 12 – Probability and Statistics 12.5 – Adding Probabilities.
Section 2 Probability Rules – Compound Events Compound Event – an event that is expressed in terms of, or as a combination of, other events Events A.

Section 2 Probability Rules – Compound Events Compound Event – an event that is expressed in terms of, or as a combination of, other events Events A.
Copyright © Ed2Net Learning Inc.1. 2 Warm Up Use the Counting principle to find the total number of outcomes in each situation 1. Choosing a car from.

Copyright © Ed2Net Learning Inc.1. 2 Warm Up Use the Counting principle to find the total number of outcomes in each situation 1. Choosing a car from.
1 Independent and Dependent Events. 2 Independent Events For independent events, the outcome of one event does not affect the other event. The probability.

1 Independent and Dependent Events. 2 Independent Events For independent events, the outcome of one event does not affect the other event. The probability.
Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 12.6 OR and AND Problems.

Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 12.6 OR and AND Problems.
HOMEWORK QUESTIONS?. 5.2 TWO-WAY TABLES PROBABILITY MODELS A probability model describes chance behavior by listing the possible outcomes in the sample.

HOMEWORK QUESTIONS?. 5.2 TWO-WAY TABLES PROBABILITY MODELS A probability model describes chance behavior by listing the possible outcomes in the sample.
Chapter 1:Independent and Dependent Events

Chapter 1:Independent and Dependent Events
13.4 Compound Probability.

13.4 Compound Probability.
Three coins are tossed. What is the probability of getting all heads or all tails? A wheel of chance has the numbers 1 to 42 once, each evenly spaced.

Three coins are tossed. What is the probability of getting all heads or all tails? A wheel of chance has the numbers 1 to 42 once, each evenly spaced.
Warm Up a) 41 b) Alternative c) 14/41 = 34%. HW Check.

Warm Up a) 41 b) Alternative c) 14/41 = 34%. HW Check.

Similar presentations

Ads by Google