Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 2.5. Cardinality Definition: A set that is either finite or has the same cardinality as the set of positive integers (Z + ) is called countable.

Published byPauline Mason Modified over 8 years ago

Similar presentations

Presentation on theme: "Section 2.5. Cardinality Definition: A set that is either finite or has the same cardinality as the set of positive integers (Z + ) is called countable."— Presentation transcript:

1 Section 2.5

2 Cardinality Definition: A set that is either finite or has the same cardinality as the set of positive integers (Z + ) is called countable. A set that is not countable is uncountable. The set of real numbers R is an uncountable set.

3 Showing that a Set is Countable An infinite set is countable if and only if it is possible to list the elements of the set in a sequence (indexed by the positive integers). The reason for this is that a one-to-one correspondence f from the set of positive integers to a set S can be expressed in terms of a sequence a 1,a 2,…, a n,… where a 1 = f( 1 ), a 2 = f( 2 ),…, a n = f(n),…

4 Showing that a Set is Countable Example 1 : Show that the set of positive even integers E is countable set. Solution: Let f ( x ) = 2 x. 1 2 3 4 5 6 ….. 2 4 6 8 10 12 …… Then f is a bijection from N to E since f is both one-to-one and onto. To show that it is one-to-one, suppose that f (n) = f (m). Then 2n = 2m, and so n = m. To see that it is onto, suppose that t is an even positive integer. Then t = 2 k for some positive integer k and f(k) = t.

5 The Positive Rational Numbers are Countable Constructing the List First list p/q with p + q = 2. Next list p/q with p + q = 3 And so on. First row q = 1. Second row q = 2. etc. 1, ½, 2, 3, 1/3,1/4, 2/3, ….

6 The Real Numbers are Uncountable Example: Show that the set of real numbers is uncountable. Solution: The method is called the Cantor diagnalization argument, and is a proof by contradiction. 1. Suppose R is countable. Then the real numbers between 0 and 1 are also countable (any subset of a countable set is countable - an exercise in the text). 2. The real numbers between 0 and 1 can be listed in order r 1, r 2, r 3,…. 3. Let the decimal representation of this listing be 4. Form a new real number with the decimal expansion where 5. r is not equal to any of the r 1, r 2, r 3,... Because it differs from r i in its ith position after the decimal point. Therefore there is a real number between 0 and 1 that is not on the list since every real number has a unique decimal expansion. Hence, all the real numbers between 0 and 1 cannot be listed, so the set of real numbers between 0 and 1 is uncountable. 6. Since a set with an uncountable subset is uncountable (an exercise), the set of real numbers is uncountable. Georg Cantor (1845-1918)

Download ppt "Section 2.5. Cardinality Definition: A set that is either finite or has the same cardinality as the set of positive integers (Z + ) is called countable."

Similar presentations

Countability. The cardinality of the set A is equal to the cardinality of a set B if there exists a bijection from A to B cardinality? bijection? injection.

Countability. The cardinality of the set A is equal to the cardinality of a set B if there exists a bijection from A to B cardinality? bijection? injection.
Basic Structures: Functions and Sequences

Basic Structures: Functions and Sequences
1 Diagonalization Fact: Many books exist. Fact: Some books contain the titles of other books within them. Fact: Some books contain their own titles within.

1 Diagonalization Fact: Many books exist. Fact: Some books contain the titles of other books within them. Fact: Some books contain their own titles within.
EE1J2 - Slide 1 EE1J2 – Discrete Maths Lecture 10 Cardinality Uncountability of the real numbers.

EE1J2 - Slide 1 EE1J2 – Discrete Maths Lecture 10 Cardinality Uncountability of the real numbers.
EE1J2 – Discrete Maths Lecture 9

EE1J2 – Discrete Maths Lecture 9
Introduction to Computability Theory

Introduction to Computability Theory
15-251 Great Theoretical Ideas in Computer Science.

Great Theoretical Ideas in Computer Science.
CSE115/ENGR160 Discrete Mathematics 02/22/11 Ming-Hsuan Yang UC Merced 1.

CSE115/ENGR160 Discrete Mathematics 02/22/11 Ming-Hsuan Yang UC Merced 1.
CSE115/ENGR160 Discrete Mathematics 02/21/12

CSE115/ENGR160 Discrete Mathematics 02/21/12
Functions f( ) = A B Lecture 15: Nov 4.

Functions f( ) = A B Lecture 15: Nov 4.
CHAPTER 4 Decidability Contents Decidable Languages

CHAPTER 4 Decidability Contents Decidable Languages
Sequence A list of objects arranged in a particular order.

Sequence A list of objects arranged in a particular order.
Fall 2004COMP 3351 A Universal Turing Machine. Fall 2004COMP 3352 Turing Machines are “hardwired” they execute only one program A limitation of Turing.

Fall 2004COMP 3351 A Universal Turing Machine. Fall 2004COMP 3352 Turing Machines are “hardwired” they execute only one program A limitation of Turing.
CS 310 – Fall 2006 Pacific University CS310 The Halting Problem Section 4.2 November 15, 2006.

CS 310 – Fall 2006 Pacific University CS310 The Halting Problem Section 4.2 November 15, 2006.
A Very Practical Series 1 What if we also save a fixed amount (d) every year?

A Very Practical Series 1 What if we also save a fixed amount (d) every year?
1 Lecture 6 Topics –Proof of the existence of unsolvable problems Problems/languages not in REC Proof Technique –There are more problems/languages than.

1 Lecture 6 Topics –Proof of the existence of unsolvable problems Problems/languages not in REC Proof Technique –There are more problems/languages than.
Cardinality of a Set “The number of elements in a set.” Let A be a set. a.If A =  (the empty set), then the cardinality of A is 0. b. If A has exactly.

Cardinality of a Set “The number of elements in a set.” Let A be a set. a.If A =  (the empty set), then the cardinality of A is 0. b. If A has exactly.
15-251 Great Theoretical Ideas in Computer Science.

Great Theoretical Ideas in Computer Science.
Chapter 7 Functions Dr. Curry Guinn. Outline of Today Section 7.1: Functions Defined on General Sets Section 7.2: One-to-One and Onto Section 7.3: The.

Chapter 7 Functions Dr. Curry Guinn. Outline of Today Section 7.1: Functions Defined on General Sets Section 7.2: One-to-One and Onto Section 7.3: The.
Functions A B f( ) =. This Lecture We will define a function formally, and then in the next lecture we will use this concept in counting. We will also.

Functions A B f( ) =. This Lecture We will define a function formally, and then in the next lecture we will use this concept in counting. We will also.

Similar presentations

Ads by Google