Probability Part II.

Slides:

Advertisements

Similar presentations

Probability Part I. Probability Probability refers to the chances of an event happening. Symbolize P(A) to refer to event A.

Advertisements

Probability and Counting Rules

Conditional Probability and the Multiplication Rule

AP Statistics Section 6.2C Independent Events & The Multiplication Rule.

Probability and Counting Rules

Probability: The Study of Randomness Chapter Randomness Think about flipping a coin n times If n = 2, can have 2 heads (100% heads), 1 heads and.

Multiplication Rule: Basics

Probability What Are the Chances?. Section 1 The Basics of Probability Theory Objectives: Be able to calculate probabilities by counting the outcomes.

MA-250 Probability and Statistics Nazar Khan PUCIT Lecture 13.

Probability Sample Space Diagrams.

SECTION 4.1 BASIC IDEAS Copyright ©2014 The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Quiz 3a  Probability. 1. What is the probability of selecting a spade from a deck of 52 cards? a) 1/4 b) 1/2 c) 10/52 d) 1/13.

Probability. The probability of an event occurring is between 0 and 1 If an event is certain not to happen, the probability is 0 eg: the probability of.

Probability and combinatorics Notes from Virtual Laboratories in Probability and Statistics.

Bell Ringer Find the sample space for the gender of the children if a family has three children. Use B for boy and G for girl. Include order. For example,

3.2 Conditional Probability & the Multiplication Rule Statistics Mrs. Spitz Fall 2008.

The probability of an event based on the fact that some other event has occurred, will occur, or is occurring. P(B/A) = Conditional Probability The probability.

Section 1.1, Slide 1 Copyright © 2014, 2010, 2007 Pearson Education, Inc. Section 13.1, Slide 1 13 Probability What Are the Chances?

Probability and Counting Rules

Section 1.1, Slide 1 Copyright © 2014, 2010, 2007 Pearson Education, Inc. Section 13.1, Slide 1 13 Probability What Are the Chances?

Advanced Math Topics Chapters 4 and 5 Review. 1) A family plans to have 3 children. What is the probability that there will be at least 2 girls? (assume.

Chapter 7 Random Variables I can find the probability of a discrete random variable. 6.1a Discrete and Continuous Random Variables and Expected Value h.w:

Probability Review and Counting Fundamentals Ginger Holmes Rowell, Middle TN State University Tracy Goodson-Espy and M. Leigh Lunsford, University of AL,

Conditional Probability

Aim: How do we find the probability of a simple event? Complete Worksheet.

2 Probability. A. A basketball player shoots three free throws. What are the possible sequences of hits (H) and misses (M)? H H H - HHH M … M M - HHM.

Introduction to Probability Ginger Holmes Rowell, Middle TN State University MSP Workshop June 2007.

Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 12.6 OR and AND Problems.

Probability Part 3 – What is Probability?. Probability Warm-up How many ways can a dinner patron select 3 appetizers and 2 vegetables if there are 6 appetizers.

IT College Introduction to Computer Statistical Packages Lecture 8 Eng. Heba Hamad.

Probability and Simulation GENERATING SAMPLE SPACE.

Chapter 4 Lecture 3 Sections: 4.4 – 4.5. Multiplication Rule Recall that we used addition for the P(A or B). the word “or” in P(A or B) suggests addition.

Section 11.4 Tree Diagrams, Tables, and Sample Spaces Math in Our World.

12.4 Counting Outcomes and Theoretical Probability.

Probabilistic & Statistical Techniques Eng. Tamer Eshtawi First Semester Eng. Tamer Eshtawi First Semester

Conditional Probability and the Multiplication Rule

Independent Events OBJ: Find the probability of independent events.

13.3 Conditional Probability and Intersections of Events Understand how to compute conditional probability. Calculate the probability of the intersection.

Copyright © 2015, 2012, and 2009 Pearson Education, Inc. 1 Chapter Probability 3.

Section 3.2 Conditional Probability and the Multiplication Rule.

Conditional Probability and the Multiplication Rule.

Section 3.2 Conditional Probability and the Multiplication Rule.

Conditional Probability and the Multiplication Rule NOTES Coach Bridges.

Section 5.3 Independence and the Multiplication Rule.

Section 3.2 Conditional Probability and the Multiplication Rule Larson/Farber 4th ed 1.

12.3 Probability of Equally Likely Outcomes

Probability and Sample Space…….

Probability and Counting Rules

Chapter 3 Probability.

Conditional Probability and the Multiplication Rule

Conditional Probability & the Multiplication Rule

What Is Probability?.

MATH 2311 Section 3.1.

Introduction to Probability

Section 5.1 Basic Ideas.

Probability and Statistics Chapter 3 Notes

Probability and Counting Rules

Expected Value and Fair Games

Probability Review and Counting Fundamentals

Chapter 3 Probability.

Chapter 3 Probability Larson/Farber 4th ed.

Conditional Probability and the Multiplication Rule

Tree diagrams and tables

Section 12.6 OR and AND Problems

Chapter 4 Probability.

Chapter 4 Lecture 3 Sections: 4.4 – 4.5.

Figure 8.1 A pair of dice. Figure 8.1. Figure 8.1 A pair of dice. Figure 8.1.

Presentation transcript:

Probability Part II

Tree Diagram Used to show all of the possible outcomes of an experiment

Example A couple plans on having 3 children. Assuming that the births are single births, make a tree diagram.

Solution There are 8 birth orders. BBB BBG BGB BGG GBB GBG GGB GGG

Questions Find each probability: All 3 children are girls There is one girl There is at least one girl There is at most one girl

Answers Find each probability: All 3 children are girls 1/8 There is one girl 3/8 There is at least one girl 7/8 There is at most one girl 4/8

Independent events Two events, A and B, are independent if the occurrence of one event does not affect the probability of the occurrence of the other.

Examples Rolling a pair of dice Tossing 2 coins Drawing 2 cards from a deck if the first card is replaced before the second card is drawn

Dependent events Two events, A and B, are dependent if the occurrence of one event does affect the probability of the occurrence of the other.

Examples Drawing 2 cards from a deck of cards if the first card is not replaced before drawing the second card. Note: Without replacement is a clue that the events will be dependent.

Multiplication Rule Independent Events P(A and B) = P(A) * P(B) P(A and B) = P(A)*P(B|A) P(B|A) means probability of B assuming that A has happened. It is called a conditional probability.

Example A die is rolled twice. What is the probability that the first roll is an even number and the second roll is a number greater than 4?

Solution These are independent events. P(even number) = 3/6 P(number > 4) = 2/6 P(A and B) = 3/6 * 2/6 = 6/36 = 1/6

Example Two cards are drawn from a deck of cards. What is the probability that both are Kings, if a. The first card is replaced before drawing the second card b. The first card is not replaced before drawing the second card

Solution There are 4 Kings in a deck of 52 cards. With replacement: = 0.006 Without replacement P = 4/52 * 3 / 52 = 0.005

Tables to find conditional probabilities A sample of 1000 people was obtained. There were 500 men and 500 women. Of the men, 63 were left handed. Of the women, 50 were left handed. Men Women Total Left handed 63 50 113 Right handed 437 450 887 500 1000

Example What is the probability that the person is a male given the person is right handed?

Example What is the probability that the person is a male given the person is right handed? Solution: There were 887 right handed people. Of these, 437 were men. P(M|RH) = 437/887 = 0.493

Example What is the probability that person is right handed, given the person is male?

Example What is the probability that person is right handed, given the person is male? Solution: There were 500 males. Of these, 437 were right handed. P(RH|M) = 437/500 = 0.874

Testing independence for a table Two events will be independent if P(B|A) = P(B)

Example Are the events “male” and “right handed” independent or dependent?

Solution P(male) = 0.500 P(male|right handed) = 0.493 These are not equal, so the 2 events are dependent. Note: You could also see if P(right handed) = P(right handed|male)