Presentation is loading. Please wait.

Presentation is loading. Please wait.

Zero elements. One element.Two elements.Three elements. { a } { b } { c } { a, b } { b, c } { a, c } { a, b, c } 8 subsets.

Published byFlora Barber Modified over 8 years ago

Similar presentations

Presentation on theme: "Zero elements. One element.Two elements.Three elements. { a } { b } { c } { a, b } { b, c } { a, c } { a, b, c } 8 subsets."— Presentation transcript:

1 Zero elements. One element.Two elements.Three elements. { a } { b } { c } { a, b } { b, c } { a, c } { a, b, c } 8 subsets.

2 Finding the number of subsets and the cardinal number of a set. Cardinal number is a non-negative integer defining how many elements are in a set. It is denoted as n( ). Example, n( O ) = 0 Let A = { a, b }. How many subsets are there. Zero elements. One element.Two elements. { a }{ b } { a, b } 4 subsets. Let n be the cardinal number of set A. Set A has 2 n subsets. What would the formula for the number of Proper Subsets? Define Union and Intersection of sets. Intersection of sets are the elements that are the same in both sets. Union of sets are all the elements that are in each set. Counting Principle (Addition). In A and B. In A or B.

3 In a survey of 100 college students, 35 were registered in College Algebra, 52 were registered in English, and 18 were registered in both courses. How many were registered in College Algebra or English? How many were registered in neither class? union Make a tree diagram for two appetizers, 4 entrees, and 2 desserts. soup salad 2 1 4 3 6 5 16 15 10 9 8 7 14 13 12 11

4 Counting Principle (Multiplication). If a task consists of a sequence of individual events, then multiply the number of each event to find total possibilities. The Student Union is having a lunch special value meal. You get to choose one of 4 sandwiches, one of 5 bags of chips, one of 7 drinks and one of 2 desserts. How many different lunch specials can you make?

5 ____ ____ ____ How many letters in the alphabet?

6 ____ ____ ____

7 menwomen

8 This is the repeating letters. There are 11 letters. n = 11 4 I’s, 4 S’s and 2 P’s

9 1’s must be on the corners of the triangle. How to use the graphing calculator to find a row of Pascal’s triangle! Find the 5 th row.

10 Decreasing power Increasing power Need the 4 th row of Pascal’s Triangle. 1, 4, 6, 4, 1 1( ) 4 ( ) 0 ( ) + 4( ) 3 ( ) 1 + 6( ) 2 ( ) 2 + 4( ) 1 ( ) 3 + 1( ) 0 ( ) 4 2x2x– 3 2x2x2x2x2x2x2x2x Notice the powers on both variables add up to 4, the power on the binomial.

11 Remember from the last example that the powers on the x-term and y-term have to add up to be... n = 10 Therefore, 10 – 7 = 3 = r. The y-term is always to the r power. Remember that the Combination formula starts counting with zero for the r! r = 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 n = 10 r = 6

12 H T H H T T T T T T H H H H Sample Space (Total = 8 = 2 3 ) HHH HTH HHT HTT THH TTH THT TTT 1 st flip 2 nd flip 3 rd flip 43 32 65 54 87 76 65 54 87 76 109 98 87 76 9 98 1211 10 2 2 1 1 4 4 3 3 6 6 5 5 Diamonds 3 Hearts 2 Spades 5 Clubs 47698J10KQA 6 * 6 = 36 total 4 * 13 = 52 total

13 Sample Space HHH HTH HHT HTT THH TTH THT TTT Always find total number of outcomes 1 st ! 43 32 65 54 87 76 65 54 87 76 109 98 87 76 9 98 1211 10 2 2 1 1 4 4 3 3 6 6 5 5 Diamonds 3 Hearts 2 Spades 5 Clubs 47698J10KQA

14

15 NO WAY! What is the opposite of at least 1 tails? No Tails or All Heads. All Heads can only happen one way.

16 The complement is P( all different birthdays ), 1 – P( all different B-days ). There are 365 days in the year and every day is likely to occur. Find the size of the sample space… The 1 st person has all 365 days available. 365 The 2 nd person has 364 days available. 364 The 3 rd person has 363 days available. 363362 361 360 359 358 357 356 10 probabilities would have a denominator of 365. The numerators are an arrangement where order matters, therefore, we can use Permutation notation. n = 365, r = 10 P(different B-days) = 1 – P( different B-days )

17 Binomial Probability. This probability has only two outcomes, success or failure. Let n = the number of trials. Let r = the number of successes. Let n – r = the number of failures. Let p = the probability of success in one trial. Let q = the probability of failure. 1 – p = q. Binomial Probability Formula P( r successes in n trials ) Always need two categories. Other common categories are Good or Bad, Boys or Girls, True or False, etc. The sum of the two probabilities is 1. The spirit club is 75% girls. What is the probability of randomly picking 5 people, where there are 3 boys and 2 girls? P( 2 girls in 5 trials )

18 A manufacture has determined that a bulb machine will produce 1 bad bulb for every 2000 bulbs it produces. What is the probability that an order of 200 bulbs are all perfect? There is at least one bad bulb? There is one bad bulb? There are two bad bulbs? We need the new Binomial Probability formula.

19

20 Total chips = 10 1 st pick3 rd pick 1 st pick3 rd pick Notice that the denominator decreases by one on each pick because there is no replacement. Same colors, but order doesn’t matter.1 st pick 2 nd pick 3 rd pick We have to consider all the different ways the 3 colors can be picked. RWB, RBW, WRB, WBR, BRW, and BWR. 3! = 6 1 st pick 2 nd pick 3 rd pick Same colors, but order doesn’t matter. We have to consider all the different ways the 3 colors can be picked. RWB, RBW, WRB, WBR, BRW, and BWR. 3! = 6

21 Total chips = 10 Another approach we can use with Probabilities that have NO REPLACEMENT, is to use Permutations or Combinations. Since order matters, this is a Permutation. Since order doesn’t matter, this is a Combination.

Download ppt "Zero elements. One element.Two elements.Three elements. { a } { b } { c } { a, b } { b, c } { a, c } { a, b, c } 8 subsets."

Similar presentations

Probability. Experiment Something capable of replication under stable conditions. Example: Tossing a coin.

Probability. Experiment Something capable of replication under stable conditions. Example: Tossing a coin.
Mathematics.

Mathematics.
Counting Chapter 13 sec 1. Break up into groups One method of counting is using the tree diagram. ◦ It is useful to keep track of counting. ◦ Order of.

Counting Chapter 13 sec 1. Break up into groups One method of counting is using the tree diagram. ◦ It is useful to keep track of counting. ◦ Order of.
Chapter 12 Sec 1 The Counting Principle. 2 of 25 Algebra 2 Chapter 12 Sections 1 thru 3 Independent Events An outcome is the result of a single trial.

Chapter 12 Sec 1 The Counting Principle. 2 of 25 Algebra 2 Chapter 12 Sections 1 thru 3 Independent Events An outcome is the result of a single trial.
1 Counting Rules. 2 The probability of a specific event or outcome is a fraction. In the numerator we have the number of ways the specific event can occur.

1 Counting Rules. 2 The probability of a specific event or outcome is a fraction. In the numerator we have the number of ways the specific event can occur.
Business Statistics: A Decision-Making Approach, 7e © 2008 Prentice-Hall, Inc. Chap 4-1 Business Statistics: A Decision-Making Approach 7 th Edition Chapter.

Business Statistics: A Decision-Making Approach, 7e © 2008 Prentice-Hall, Inc. Chap 4-1 Business Statistics: A Decision-Making Approach 7 th Edition Chapter.
Probability Probability Principles of EngineeringTM

Probability Probability Principles of EngineeringTM
Discrete Structures Chapter 4 Counting and Probability Nurul Amelina Nasharuddin Multimedia Department.

Discrete Structures Chapter 4 Counting and Probability Nurul Amelina Nasharuddin Multimedia Department.
1 Counting Rules. 2 The probability of a specific event or outcome is a fraction. In the numerator we have the number of ways the specific event can occur.

1 Counting Rules. 2 The probability of a specific event or outcome is a fraction. In the numerator we have the number of ways the specific event can occur.
Class notes for ISE 201 San Jose State University

Class notes for ISE 201 San Jose State University
Probability Distributions: Finite Random Variables.

Probability Distributions: Finite Random Variables.
Fundamentals of Probability

Fundamentals of Probability
Copyright ©2011 Nelson Education Limited. Probability and Probability Distributions CHAPTER 4 Part 2.

Copyright ©2011 Nelson Education Limited. Probability and Probability Distributions CHAPTER 4 Part 2.
1 Algorithms CSCI 235, Fall 2012 Lecture 9 Probability.

1 Algorithms CSCI 235, Fall 2012 Lecture 9 Probability.
Chapter 3 Section 3.6 Conditional Probability. The interesting questions that probability can answer are how much one event will effect another. Does.

Chapter 3 Section 3.6 Conditional Probability. The interesting questions that probability can answer are how much one event will effect another. Does.
5.1 Basic Probability Ideas

5.1 Basic Probability Ideas
10/1/20151 Math 4030-2a Sample Space, Events, and Probabilities of Events.

10/1/20151 Math a Sample Space, Events, and Probabilities of Events.
Probability.

Probability.
Sample space The set of all possible outcomes of a chance experiment –Roll a dieS={1,2,3,4,5,6} –Pick a cardS={A-K for ♠, ♥, ♣ & ♦} We want to know the.

Sample space The set of all possible outcomes of a chance experiment –Roll a dieS={1,2,3,4,5,6} –Pick a cardS={A-K for ♠, ♥, ♣ & ♦} We want to know the.
Chapter 3 Section 3.2 Basic Terms of Probability.

Chapter 3 Section 3.2 Basic Terms of Probability.

Similar presentations

Ads by Google