Presentation is loading. Please wait.

Presentation is loading. Please wait.

Basic Probability Sets, Subsets Sample Space Event, E Probability of an Event, P(E) How Probabilities are assigned Properties of Probabilities.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Basic Probability Sets, Subsets Sample Space Event, E Probability of an Event, P(E) How Probabilities are assigned Properties of Probabilities."— Presentation transcript:

1 Basic Probability Sets, Subsets Sample Space Event, E Probability of an Event, P(E) How Probabilities are assigned Properties of Probabilities

2 Sets A set is simply any collection of objects A set may be finite or infinite A set with nothing in it is called the empty set (null or void set) and is denoted, { } or ø Two sets are equal if they have exactly the same elements

3 Subsets If A={1,2,3} is a set then subsets of A include the sets:{ },{1},{2},{3},{1,2}, {1,3},{2,3},{1,2,3} If B is one of the subsets of A then we can say that B  A

4 Sample Space The set, S, of all distinct possible outcomes of an experiment is called a sample space Suppose we are rolling a die, what is the sample space, S? Suppose we toss a coin twice recording the outcome each time, what is the sample space, S?

5 Events (E) An event is any collection of outcomes of a probability experiment Suppose we are flipping a coin-what are the events that may occur? Suppose we are rolling a die, what are the events that may occur? What if we flip the coin twice, what are the events that may occur?

6 Event, con’t Since an event is a collection of outcomes, we can say that E  S What does E mean? What does S stand for? What does E  S mean? An event, E is a subset of a sample space, S.

7 Exercise Determine the sample space for the experiment: flipping a coin three times Write three events that correspond to this experiment What is P(at least 3 heads)? What is P(at least 3 tails)? What is P(no heads)? What is P(no more than 1 head)?

8 Another Exercise Suppose as part of a survey on popular music two students are asked whether they like a certain CD, dislike it, or don’t care. What is the sample space? What are the chances that the first student likes the CD? What are the chances that the second student likes the CD?

9 Another Exercise (cont) How about each of the students either liking or disliking the CD? How about one student liking the CD while the other doesn’t care? What about the second student liking the CD AND one of the students likes the CD while the other doesn’t care?

10 Probability of an Event Given an event, we would assign it a number, P(E) called the probability of E This number indicates the likelihood that the event will occur. We can find this number by setting up a ratio:

11 How Probabilities are Assigned Initial Probabilities are usually assigned either: Empirically-when an experiment is repeated a large number of times and you observe the fraction of times E occurs By Authority By Common Agreement

12 Properties of Probabilities Probabilities must satisfy the following properties: i. For any event, E, 0  P(E)  1 ii. If E is certain to happen then P(E)=1 iii. If E and F are events where E and F cannot happen at the same time, then P(E or F)=P(E)+P(F)

13 Probability, con’t A set of possible outcomes of an experiment is a sample space, S. P(S)=?

14 Venn Diagrams The Venn Diagram is made up of two or more overlapping circles or sets. It is often used in mathematics to show relationships between sets.

15 Venn Diagrams Here is the Venn Diagram associated with the set A.

16 Complements A complement of A is everything that is in the universal set, U, but not in the set A. The complement is the event that A does not happen. The complement is denoted, A c. Here is the complement of set A.

17 Unions of sets The union of sets A and B is the set of all items that are either in A or B. We express union, A  B In math, the word “or” also includes members of both A and B.

18 Intersection of Sets The intersection of sets A and B is the set of all items that are in both A and B. We express intersection, A  B.

19 Probabilities For any events E and F:

20 Mutually Exclusive Two events are mutually exclusive if A  B= . If A and B are mutually exclusive, then AB

21 Mutually Exclusive If no two events E 1,E 2.... E n can happen at the same time, then

22 Review Union of two sets, A  B, is all items that are in set A OR set B Intersection of two sets, A  B, is all items that are in both A AND B A complement of event A, A c, is everything that is in the universal set but not in the set A Two events are mutually exclusive if A  B= 

23 Review, con’t For any events, E and F: P(E  F)=P(E)+P(F)-P(E  F) We can use this equation to solve for P(E  F), P(E), P(F), or P(E  F) However if E and F are mutually exclusive then: P(E  F)=P(E)+P(F) P(E c )=1-P(E)

24 De Morgan’s Laws If A and B are any two sets:

25 Answer the following questions: What is: (A  A c ) = ? (A  A c ) = ? If E and F are mutually exclusive, what is (E  F) = ?

Download ppt "Basic Probability Sets, Subsets Sample Space Event, E Probability of an Event, P(E) How Probabilities are assigned Properties of Probabilities."

Similar presentations

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 14 From Randomness to Probability.

Copyright © 2010, 2007, 2004 Pearson Education, Inc. Chapter 14 From Randomness to Probability.
Introduction to Probability Experiments, Outcomes, Events and Sample Spaces What is probability? Basic Rules of Probability Probabilities of Compound Events.

Introduction to Probability Experiments, Outcomes, Events and Sample Spaces What is probability? Basic Rules of Probability Probabilities of Compound Events.
Probability.

Probability.
Week 21 Basic Set Theory A set is a collection of elements. Use capital letters, A, B, C to denotes sets and small letters a 1, a 2, … to denote the elements.

Week 21 Basic Set Theory A set is a collection of elements. Use capital letters, A, B, C to denotes sets and small letters a 1, a 2, … to denote the elements.
Sets: Reminder Set S – sample space - includes all possible outcomes

Sets: Reminder Set S – sample space - includes all possible outcomes
Chris Morgan, MATH G160 January 9, 2012 Lecture 1 Chapter 4.1, 4.2, & 4.3: Set Theory, Introduction to Probability.

Chris Morgan, MATH G160 January 9, 2012 Lecture 1 Chapter 4.1, 4.2, & 4.3: Set Theory, Introduction to Probability.
Basic Probability. Theoretical versus Empirical Theoretical probabilities are those that can be determined purely on formal or logical grounds, independent.

Basic Probability. Theoretical versus Empirical Theoretical probabilities are those that can be determined purely on formal or logical grounds, independent.
Math 310 Section 7.1 Probability. What is a probability? Def. In common usage, the word probability is used to mean the chance that a particular event.

Math 310 Section 7.1 Probability. What is a probability? Def. In common usage, the word "probability" is used to mean the chance that a particular event.
1 Definitions Experiment – a process by which an observation ( or measurement ) is observed Sample Space (S)- The set of all possible outcomes (or results)

1 Definitions Experiment – a process by which an observation ( or measurement ) is observed Sample Space (S)- The set of all possible outcomes (or results)
Chapter 4: Probability (Cont.) In this handout: Venn diagrams Event relations Laws of probability Conditional probability Independence of events.

Chapter 4: Probability (Cont.) In this handout: Venn diagrams Event relations Laws of probability Conditional probability Independence of events.
1 Definitions Experiment – a process by which an observation ( or measurement ) is observed Sample Space (S)- The set of all possible outcomes (or results)

1 Definitions Experiment – a process by which an observation ( or measurement ) is observed Sample Space (S)- The set of all possible outcomes (or results)
Chapter 2 Chapter 2.1-2.2 The sample space of an experiment, denoted S , is the set of all possible outcomes of that experiment. An event is any collection.

Chapter 2 Chapter The sample space of an experiment, denoted S , is the set of all possible outcomes of that experiment. An event is any collection.
Conditional Probability

Conditional Probability
Venn Diagrams and Probability Target Goals: I can use a Venn diagram to model a chance process of two events. I can use the general addition rule. 5.2b.

Venn Diagrams and Probability Target Goals: I can use a Venn diagram to model a chance process of two events. I can use the general addition rule. 5.2b.
Lecture 7 Dustin Lueker.  Experiment ◦ Any activity from which an outcome, measurement, or other such result is obtained  Random (or Chance) Experiment.

Lecture 7 Dustin Lueker.  Experiment ◦ Any activity from which an outcome, measurement, or other such result is obtained  Random (or Chance) Experiment.
Basic Concepts and Approaches

Basic Concepts and Approaches
Chapter 9 Introducing Probability - A bridge from Descriptive Statistics to Inferential Statistics.

Chapter 9 Introducing Probability - A bridge from Descriptive Statistics to Inferential Statistics.
MATH 3033 based on Dekking et al. A Modern Introduction to Probability and Statistics. 2007 Slides by Tim Birbeck Instructor Longin Jan Latecki C2: Outcomes,

MATH 3033 based on Dekking et al. A Modern Introduction to Probability and Statistics Slides by Tim Birbeck Instructor Longin Jan Latecki C2: Outcomes,
Chapter 1 Probability and Distributions Math 6203 Fall 2009 Instructor: Ayona Chatterjee.

Chapter 1 Probability and Distributions Math 6203 Fall 2009 Instructor: Ayona Chatterjee.
Probability. An experiment is any process that allows researchers to obtain observations and which leads to a single outcome which cannot be predicted.

Probability. An experiment is any process that allows researchers to obtain observations and which leads to a single outcome which cannot be predicted.

Similar presentations

Ads by Google