Difference between revisions of "Sets:Operations"

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(Created page with "==Definitions== The two main set operations that we deal with are union and intersection. The union of two sets <math> A </math> and <math> B </math> is defined as <math> A \c...")
 
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* For sets <math> A </math> and <math> B </math> such that <math> A \subseteq B </math>, <math> A \cup B = A </math>.
 
* For sets <math> A </math> and <math> B </math> such that <math> A \subseteq B </math>, <math> A \cup B = A </math>.
  
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Sets <math> A </math> and <math> B </math> are "disjoint" if <math> A \cap B = \empty </math>.
  
 
==Resources==
 
==Resources==
 
* [ Course Textbook], pages 101-115
 
* [ Course Textbook], pages 101-115

Revision as of 12:46, 26 September 2021

Definitions

The two main set operations that we deal with are union and intersection. The union of two sets and is defined as or . For example:

  • The union of and is
  • The union of the even integers and odd integers is .
  • The union of the set of rational numbers and the set of irrational numbers is .
  • , and .
  • For sets and such that , , since all elements of are already in if .

The intersection of and is defined as and ; that is, the intersection of and is the set of all elements shared by the two sets. For example:

  • The intersection of and is .
  • The intersection of the even integers and odd integers is the empty set, since no element between these two sets is shared (an integer cannot be both even and odd).
  • , and .
  • For sets and such that , .

Sets and are "disjoint" if .

Resources

  • [ Course Textbook], pages 101-115