Categorieën: Alle - identity - multiplication - properties

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Sets & Whole-Number Operations and Properties

The document discusses the essential concepts related to sets and whole-number operations that students need to master from Kindergarten through 6th grade. It primarily focuses on the properties of multiplication, such as the closure, identity, commutative, associative, zero, and distributive properties.

Sets & Whole-Number Operations and Properties

Sets & Whole-Number Operations and Properties

The goal of this map is to outline everything you need to learn about sets and whole-number operations and properties for Kindergarten through 6th grade.

Division of Whole Numbers

As with multiplication, division of whole numbers would have the closure property provided that when we divide two whole numbers, the quotient is a unique whole number.

In the division of whole numbers a and b, b does not equal 0, a/b=c if and only if c is a unique whole number such that c x b=a. In the equation, a/b=c, a is the dividend, b is the divisor, and c is the quotient.

Sets & Whole Numbers

Whole Numbers

  • Whole number=the unique characteristic embodied in each finite set and all the sets equivalent to it
  • Cardinality=the number of elements in set A is expressed as n(A)
  • Less than is symbolized as <
  • Greater than is symbolized as >
  • Set of natural numbers=infinite set, proper subset of whole numbers, also called the set of counting numbers, does not include 0
  • Set of even numbers=a proper subset of the set of whole numbers starting with 0 and continuing with every second number after that
  • Set of odd numbers=proper subset of the whole numbers that remains after the even numbers are removed
  • Sets

  • Set=any collection of objects or ideas that can be listed or described
  • Element=each individual object in a set
  • One-to-one correspondence=Sets A & B have one-to-one correspondence if and only if each element of A is paired with exactly one element of B and each element of B is paired with exactly one element of A
  • Equal sets=Sets A & B are equal sets if and only if each element of A is also an element of B and each element of B is also an element of A (symbolized A=B)
  • Equivelent sets=Sets A & B are equivalent sets if and only if there is a one-to-one correspondence between A and B (symbolized by A ~ B)
  • Subset=For all sets A & B, A is a subset of B if and only if each element of A is also an element of B (symbolized as A C B)
  • Proper Subset=For all sets A & B, A is a proper subset of B if and only if A is a subset of B and there is at least one element of B that is not an element of A (symbolized as A C B)
  • Complement=The complement of set A consists of all of the elements in U that are not in A
  • Union of 2 sets=A and B is the set containing every element belonging to set A or set B and is written A U B
  • Intersection of 2 sets=A and B is the set containing every element belonging to both set A and set B
  • Disjoint sets=if and only if their intersection is the empty set
  • Multiplication of Whole Numbers

  • Closure property of multiplication=for whole number a and b, a x b is a unique whole number
  • Identity property of multiplication=there exists a unique whole number, 1, such that 1 x a = a x 1 = a for every whole number a. Thus 1 is the multiplicative identity element
  • Commutative property of multiplication=for whole number a and b, a x b = b x a
  • Associative property of multiplication=for whole numbers a, b, and c, (a x b) x c = a x (b x c)
  • Zero property of multiplication=for each whole number a, a x 0=0 x a=0
  • Distributive property of multiplication over addition=for whole numbers a, b, and c, a x (b+c)=(a x b) + (a x c)
  • Distributive Property of Multiplication

    Distributive property of multiplication over addition=for whole numbers a, b, and c, a x (b+c)=(a x b) + (a x c)

    Zero Property of Multiplication

    Zero property of multiplication=for each whole number a, a x 0=0 x a=0

    Associative Property of Multiplication

    Associative property of multiplication=for whole numbers a, b, and c, (a x b) x c = a x (b x c)

    Commutative Property of Multiplication

    Commutative property of multiplication=for whole number a and b, a x b = b x a

    Identity Property of Multiplication

    Identity property of multiplication=there exists a unique whole number, 1, such that 1 x a = a x 1 = a for every whole number a. Thus 1 is the multiplicative identity element

    Closure Property of Multiplication

    Closure property of multiplication=for whole number a and b, a x b is a unique whole number

  • Multiplication as repeated addition=if there are m sets with n objects in each set, then the total number of objects (n+n+n+...+n, where n is used as an addend m times) can be represented by m x n, where m and n are factors and m x n is the product
  • Multiplication of whole numbers=if A and B are finite sets with a = n(A) and b = n(B), then a x b = n(A x B). In the equation a x b = n(A x B), a and b are called factors and n(A x B) is called the product
  • Subtraction of Whole Numbers

    Even though subtraction of whole numbers is closely related to addition of whole numbers, the properties of addition do not hold for subtraction.

    In the subtraction of the whole numbers a and b, a-b=c if and only if c is a unique whole number such that c+b=a. In the equation a-b=c, a is the minuend, b is the subtrahend, and c is the difference.

    Addition of Whole Numbers

    Properties

  • Closure property of addition=for whole numbers a and b, a+b is a unique whole number
  • Identity property of addtion=there exists a unique whole number, 0, such that 0+a=a+0 for every whole number a. Zero is the additive identity element.
  • Commutative property of addition=for whole number a and b, a+b=b+a
  • Associative property of addition=for whole numbers a,b, and c, (a+b)+c=a+(b+c)
  • Associative Property of Addition

    Associative property of addition=for whole numbers a,b, and c, (a+b)+c=a+(b+c)

    Commutative Property of Addition

    Commutative property of addition=for whole number a and b, a+b=b+a

    Identity Property of Addition

    Identity property of addtion=there exists a unique whole number, 0, such that 0+a=a+0 for every whole number a. Zero is the additive identity element.

    Closure Property of Addition

    Closure property of addition=for whole numbers a and b, a+b is a unique whole number

    Definitions

    In the addition of whole numbers, if A and B are two disjoint sets, and n(A) = a and n(B) = b, then a+b=n(AUB).

    In the equation a+b=c, a and b are addends and c is the sum