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Binary Operations

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Binary Operations Definition: A binary operation on a nonempty set A is a mapping defined on A A to A, denoted by f : A A A. Ex1. (a) Let + be the addition ... – PowerPoint PPT presentation

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Title: Binary Operations


1
Binary Operations
2
Definition
  • A binary operation on a nonempty set A is a
    mapping defined on A?A to A, denoted by f A?A ?
    A.

3
Ex1. (a)
  • Let be the addition operation on Z.
  • Z?Z ? Z defined by (a, b) ab
  • Let ? be the multiplication on R.
  • ? R?R ? R defined by ?(a, b) ab

4
Ex1. (b)
  • ?Z?Z ? Z defined by ?(x, y) xy?1
  • ?(1, 1) ?(2, 3)
  • Then ? is a binary operation on Z.
  • ?Z?Z ? Z defined by ?(x, y) 1xy
  • ?(1, 1)
  • ?(2, ?3)
  • Then ? is a binary operation on Z.

5
Ex1. (c)
  • Let be the division operation on Z.
  • Then (1, 2)½. (1, 2)?Z?Z , but ½?Z.
  • Thus is not a binary operation.
  • If we deal with on R , then is not a
    binary operation, either.
  • Because (a , 0) is undefined.
  • But is a binary operation on R?0.

6
Ex2.
  • The intersection and union of two sets are both
    binary operations on the universal set .

7
Definitions
  • If ? is a binary operation on the nonempty set
    A, then we say ? is commutative if
  • x ? y y ? x, ?x, y?A.
  • If x ? (y ? z) (x ? y) ? z, ? x, y, z ? A,
  • then we say that the binary operation is
    associative.

8
Ex3.(a)
  • The Operations and ? on Z are both
    commutative and associative.

9
Ex3. (b)
  • But operation Z?Z?Z defined by
  • (a, b) a b is not commutative.
  • Since
  • The operation is not associative, either.
    Because

10
Ex4. (a)
  • Let ? be the operation defined as Ex1(b) on Z,
    x ? y xy?1. Then ? is both commutative and
    associative.
  • Pf

11
Ex4. (b)
  • Let ? be the operation defined as Ex1(b) on Z,
    x?y 1xy. Then ? is commutative but not
    associative.
  • Pf

12
Definition
  • Let ? A?A ? A is a binary operation on a
    nonempty set A and let B ? A.
  • If x?y?B, ?x, y ?B, then we say B is closed with
    respect to ?.

13
Ex5.
  • (a) The set S of all odd integers is closed with
    respect to multiplication.
  • (b) Define ?Z?Z ? Z by x ? y ?x? ?y?.
  • Let B be the set of all negative integers. Then
    B is not closed with respect to ?,

14
Definition
  • Let A be a nonempty set and
  • let ? A?A ? A be a binary operation on A. An
    element e ?A is called an (two side) identity
    element with respect to ?
  • if e?x x x?e, ?x?A.

15
Ex6.
  • (a) The integer 1 is an identity w. r. t. ?,
    but not w. r. t. .
  • The number 0 is an identity w. r. t. .
  • (b) Let ? be the operation defined as Ex1(b) on
    Z, x ? y xy ?1. Then

16
Ex6. (continuous)
  • (c) Let ? be the operation defined as Ex1(b) on
    Z, x?y 1xy. Then the operation has no
    identity element in Z.
  • Pf

17
Definition
  • Let e be the identity element for the binary
    operation ? on A and a? A.
  • If ?b? A such that a?b e (or b?a e)
  • then b is called a right inverse
  • (or left inverse) of a w. r. t. ?.
  • If both a ?b e b ?a, then b (denoted by a?1)
    is called an (two-side) inverse of a
  • a?1 is called an invertible element of a.

18
Note
  • The identity e and the two-side inverse of an
    element w. r. t. a binary operation ? are unique.
  • Pf

19
Ex7.
  • Let ? be the operation defined as Ex1(b) on Z,
    x ? y xy ?1. Then (2x) is a two-side inverse
    of x w. r. t. ?, ?x?Z.
  • Pf

20
Ex8. (a)
  • Give a binary operation on Z as follow.
  • (a) x ? y x

21
Ex8. (b)
  • (b) x ? y x2y. This operation is neither
  • associative, nor commutative.
  • Pf

22
Ex8. (b) (continuous)
  • (b) x ? y x 2y.This operation has no
    identity, thus no inverse.
  • Pf

23
Ex8. (c)
  • (c) x ? y x xy y.
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