Sets.ppt
- 2. What is a Set? A set is a well-defined collection of distinct objects. The objects in a set are called the elements or members of the set. Capital letters A,B,C,… usually denote sets. Lowercase letters a,b,c,… denote the elements of a set.
- 3. Examples The collection of the vowels in the word “probability”. The collection of real numbers that satisfy the equation . The collection of two-digit positive integers divisible by 5. The collection of great football players in the National Football League. The collection of intelligent members of the United States Congress. 0 9 2 x
- 4. The Empty Set The set with no elements. Also called the null set. Denoted by the symbol f. Example: The set of real numbers x that satisfy the equation 0 1 2 x
- 5. Finite and Infinite Sets A finite set is one which can be counted. Example: The set of two-digit positive integers has 90 elements. An infinite set is one which cannot be counted. Example: The set of integer multiples of the number 5.
- 6. The Cardinality of a Set Notation: n(A) For finite sets A, n(A) is the number of elements of A. For infinite sets A, write n(A)=∞.
- 7. Specifying a Set List the elements explicitly, e.g., List the elements implicitly, e.g., Use set builder notation, e.g., , , C a o i 10,15,20,25,....,95 K / where and are integers and 0 Q x x p q p q q
- 8. The Universal Set A set U that includes all of the elements under consideration in a particular discussion. Depends on the context. Examples: The set of Latin letters, the set of natural numbers, the set of points on a line.
- 9. The Membership Relation Let A be a set and let x be some object. Notation: Meaning: x is a member of A, or x is an element of A, or x belongs to A. Negated by writing Example: . , . A x A x , , , , V a e i o u V e V b
- 10. Equality of Sets Two sets A and B are equal, denoted A=B, if they have the same elements. Otherwise, A≠B. Example: The set A of odd positive integers is not equal to the set B of prime numbers. Example: The set of odd integers between 4 and 8 is equal to the set of prime numbers between 4 and 8.
- 11. Subsets A is a subset of B if every element of A is an element of B. Notation: For each set A, For each set B, A is proper subset of B if and B A B A A A B Ø B A
- 12. Unions The union of two sets A and B is The word “or” is inclusive. or A B x x A x B
- 13. Intersections The intersection of A and B is Example: Let A be the set of even positive integers and B the set of prime positive integers. Then Definition: A and B are disjoint if and A B x x A x B } 2 { B A Ø B A
- 14. Complements o If A is a subset of the universal set U, then the complement of A is the set o Note: ; c A A c A x U x A U A A c
- 15. Venn Diagrams A Set A represented as a disk inside a rectangular region representing U. U
- 16. Possible Venn Diagrams for Two Sets U A B U A B U A B
- 17. The Complement of a Set A The shaded region represents the complement of the set A Ac
- 18. The Union of Two Sets U A B
- 19. The Intersection of Two Sets U A B
- 20. Sets Formed by Two Sets o R1 R3 U A B R2 R4 c B A R 1 B A R 2 B A R c 3 c c B A R 4
- 21. Two Basic Counting Rules If A and B are finite sets, 1. 2. See the preceding Venn diagram. ) ( ) ( ) ( ) ( B A n B n A n B A n ) ( ) ( ) ( B A n A n B A n c