What would you call a finite collection of unordered objects that are not necessarily distinct?Definition of correspondenceName for variations of elements from several setsComparison of two sets of 4-tuples using combinatoricsComparison of two collections of 4-tuples using combinatorics - more complicated versionPermutation of numbers from multiple sets [May contain duplicate numbers among other sets], resulting in Non-Duplicate SetPredicting the number of unique elements in the Cartesian product of a set with itselfIs there symbol to denote a combination and permutation?Name for a set in which some of the elements are also contained in other set elements?What would you call this?Is there a name for the set of “unique” combinations of the powerset of $2^n$ modulo permutation?

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What would you call a finite collection of unordered objects that are not necessarily distinct?


Definition of correspondenceName for variations of elements from several setsComparison of two sets of 4-tuples using combinatoricsComparison of two collections of 4-tuples using combinatorics - more complicated versionPermutation of numbers from multiple sets [May contain duplicate numbers among other sets], resulting in Non-Duplicate SetPredicting the number of unique elements in the Cartesian product of a set with itselfIs there symbol to denote a combination and permutation?Name for a set in which some of the elements are also contained in other set elements?What would you call this?Is there a name for the set of “unique” combinations of the powerset of $2^n$ modulo permutation?













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$begingroup$


I Just want to know the name for this if there is one because I don't think it satisifies any of the formal definitions for sets, n-tuples, sequences, combinations, permutations, or any other enumerated objects I can think of.



For convenience, I will henceforth use the term $mathbf set^*$ with an asterisk to refer to what I described in the title.



As a quick example, let $mathbfA$ and $mathbfB $ be $mathbf set^*$'s where $$mathbfA = 3,3,4,11,4,8$$
$$mathbfB = 4,3,4,8,11,3$$



Then $mathbfA $ and $mathbf B $ are equal.










share|cite|improve this question









$endgroup$
















    9












    $begingroup$


    I Just want to know the name for this if there is one because I don't think it satisifies any of the formal definitions for sets, n-tuples, sequences, combinations, permutations, or any other enumerated objects I can think of.



    For convenience, I will henceforth use the term $mathbf set^*$ with an asterisk to refer to what I described in the title.



    As a quick example, let $mathbfA$ and $mathbfB $ be $mathbf set^*$'s where $$mathbfA = 3,3,4,11,4,8$$
    $$mathbfB = 4,3,4,8,11,3$$



    Then $mathbfA $ and $mathbf B $ are equal.










    share|cite|improve this question









    $endgroup$














      9












      9








      9


      2



      $begingroup$


      I Just want to know the name for this if there is one because I don't think it satisifies any of the formal definitions for sets, n-tuples, sequences, combinations, permutations, or any other enumerated objects I can think of.



      For convenience, I will henceforth use the term $mathbf set^*$ with an asterisk to refer to what I described in the title.



      As a quick example, let $mathbfA$ and $mathbfB $ be $mathbf set^*$'s where $$mathbfA = 3,3,4,11,4,8$$
      $$mathbfB = 4,3,4,8,11,3$$



      Then $mathbfA $ and $mathbf B $ are equal.










      share|cite|improve this question









      $endgroup$




      I Just want to know the name for this if there is one because I don't think it satisifies any of the formal definitions for sets, n-tuples, sequences, combinations, permutations, or any other enumerated objects I can think of.



      For convenience, I will henceforth use the term $mathbf set^*$ with an asterisk to refer to what I described in the title.



      As a quick example, let $mathbfA$ and $mathbfB $ be $mathbf set^*$'s where $$mathbfA = 3,3,4,11,4,8$$
      $$mathbfB = 4,3,4,8,11,3$$



      Then $mathbfA $ and $mathbf B $ are equal.







      combinatorics elementary-set-theory notation permutations definition






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      asked yesterday









      Nicholas CousarNicholas Cousar

      374212




      374212




















          4 Answers
          4






          active

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          35












          $begingroup$

          If you're looking for something like a set which may have repeated elements, standard terms are multiset or bag. See multiset on wikipedia.






          share|cite|improve this answer









          $endgroup$




















            7












            $begingroup$

            The common term is multiset. For a formal definition, you can for instance define the set of multisets of size $n$ of a given set $A$ as $A^n/mathfrakS_n$ where $mathfrakS_n$ acts by permutation of the factors; or if you don't want to be bothered by size you can define it as a map $f: Ato mathbbN$ where $f(a)$ is supposed to represent the number of times $a$ appears in the multiset.



            These are two interesting models for different situations, and there are probably more.






            share|cite|improve this answer









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              4












              $begingroup$

              In this context you can identify what you call a $mathbf set^*$ with a function that has a finite domain and has $mathbb N=1,2,3cdots$ as codomain.



              $A$ and $B$ in your question can both be identified with function: $$langle3,2rangle,langle4,2rangle,langle8,1rangle,langle11,1rangle$$Domain of the function in this case is the set $3,4,8,11$.






              share|cite|improve this answer









              $endgroup$




















                1












                $begingroup$

                If two objects can be distinguished by the number of times an element appears in them, that is called "multiplicity". So the more mathy version of "finite collection of unordered objects that are not necessarily distinct" would be "unordered finite collection with multiplicity" or "finite collection with multiplicity but not order".



                The single-word term for unordered collections with multiplicity is "multi-set", but I don't think there's any single-word term for finite multi-sets. Googling "math collection multiplicity no order" returns http://mathworld.wolfram.com/Set.html and https://en.wikipedia.org/wiki/Multiplicity_(mathematics) , both of which mention multisets.



                Another term that is used in the context of eigenvalues is "spectrum": the multiplicity of the eigenvalues is important, but there is no canonical order (other than the normal order of the real numbers, but that doesn't apply if they are complex). When you diagonalize or take the Jordan canonical form of a matrix, it matters how many times each eigenvalue appears, but putting the eigenvalues in a different order results in the same matrix, up to similarity.






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                  active

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                  35












                  $begingroup$

                  If you're looking for something like a set which may have repeated elements, standard terms are multiset or bag. See multiset on wikipedia.






                  share|cite|improve this answer









                  $endgroup$

















                    35












                    $begingroup$

                    If you're looking for something like a set which may have repeated elements, standard terms are multiset or bag. See multiset on wikipedia.






                    share|cite|improve this answer









                    $endgroup$















                      35












                      35








                      35





                      $begingroup$

                      If you're looking for something like a set which may have repeated elements, standard terms are multiset or bag. See multiset on wikipedia.






                      share|cite|improve this answer









                      $endgroup$



                      If you're looking for something like a set which may have repeated elements, standard terms are multiset or bag. See multiset on wikipedia.







                      share|cite|improve this answer












                      share|cite|improve this answer



                      share|cite|improve this answer










                      answered yesterday









                      Especially LimeEspecially Lime

                      22.6k23059




                      22.6k23059





















                          7












                          $begingroup$

                          The common term is multiset. For a formal definition, you can for instance define the set of multisets of size $n$ of a given set $A$ as $A^n/mathfrakS_n$ where $mathfrakS_n$ acts by permutation of the factors; or if you don't want to be bothered by size you can define it as a map $f: Ato mathbbN$ where $f(a)$ is supposed to represent the number of times $a$ appears in the multiset.



                          These are two interesting models for different situations, and there are probably more.






                          share|cite|improve this answer









                          $endgroup$

















                            7












                            $begingroup$

                            The common term is multiset. For a formal definition, you can for instance define the set of multisets of size $n$ of a given set $A$ as $A^n/mathfrakS_n$ where $mathfrakS_n$ acts by permutation of the factors; or if you don't want to be bothered by size you can define it as a map $f: Ato mathbbN$ where $f(a)$ is supposed to represent the number of times $a$ appears in the multiset.



                            These are two interesting models for different situations, and there are probably more.






                            share|cite|improve this answer









                            $endgroup$















                              7












                              7








                              7





                              $begingroup$

                              The common term is multiset. For a formal definition, you can for instance define the set of multisets of size $n$ of a given set $A$ as $A^n/mathfrakS_n$ where $mathfrakS_n$ acts by permutation of the factors; or if you don't want to be bothered by size you can define it as a map $f: Ato mathbbN$ where $f(a)$ is supposed to represent the number of times $a$ appears in the multiset.



                              These are two interesting models for different situations, and there are probably more.






                              share|cite|improve this answer









                              $endgroup$



                              The common term is multiset. For a formal definition, you can for instance define the set of multisets of size $n$ of a given set $A$ as $A^n/mathfrakS_n$ where $mathfrakS_n$ acts by permutation of the factors; or if you don't want to be bothered by size you can define it as a map $f: Ato mathbbN$ where $f(a)$ is supposed to represent the number of times $a$ appears in the multiset.



                              These are two interesting models for different situations, and there are probably more.







                              share|cite|improve this answer












                              share|cite|improve this answer



                              share|cite|improve this answer










                              answered yesterday









                              MaxMax

                              15.6k11143




                              15.6k11143





















                                  4












                                  $begingroup$

                                  In this context you can identify what you call a $mathbf set^*$ with a function that has a finite domain and has $mathbb N=1,2,3cdots$ as codomain.



                                  $A$ and $B$ in your question can both be identified with function: $$langle3,2rangle,langle4,2rangle,langle8,1rangle,langle11,1rangle$$Domain of the function in this case is the set $3,4,8,11$.






                                  share|cite|improve this answer









                                  $endgroup$

















                                    4












                                    $begingroup$

                                    In this context you can identify what you call a $mathbf set^*$ with a function that has a finite domain and has $mathbb N=1,2,3cdots$ as codomain.



                                    $A$ and $B$ in your question can both be identified with function: $$langle3,2rangle,langle4,2rangle,langle8,1rangle,langle11,1rangle$$Domain of the function in this case is the set $3,4,8,11$.






                                    share|cite|improve this answer









                                    $endgroup$















                                      4












                                      4








                                      4





                                      $begingroup$

                                      In this context you can identify what you call a $mathbf set^*$ with a function that has a finite domain and has $mathbb N=1,2,3cdots$ as codomain.



                                      $A$ and $B$ in your question can both be identified with function: $$langle3,2rangle,langle4,2rangle,langle8,1rangle,langle11,1rangle$$Domain of the function in this case is the set $3,4,8,11$.






                                      share|cite|improve this answer









                                      $endgroup$



                                      In this context you can identify what you call a $mathbf set^*$ with a function that has a finite domain and has $mathbb N=1,2,3cdots$ as codomain.



                                      $A$ and $B$ in your question can both be identified with function: $$langle3,2rangle,langle4,2rangle,langle8,1rangle,langle11,1rangle$$Domain of the function in this case is the set $3,4,8,11$.







                                      share|cite|improve this answer












                                      share|cite|improve this answer



                                      share|cite|improve this answer










                                      answered yesterday









                                      drhabdrhab

                                      103k545136




                                      103k545136





















                                          1












                                          $begingroup$

                                          If two objects can be distinguished by the number of times an element appears in them, that is called "multiplicity". So the more mathy version of "finite collection of unordered objects that are not necessarily distinct" would be "unordered finite collection with multiplicity" or "finite collection with multiplicity but not order".



                                          The single-word term for unordered collections with multiplicity is "multi-set", but I don't think there's any single-word term for finite multi-sets. Googling "math collection multiplicity no order" returns http://mathworld.wolfram.com/Set.html and https://en.wikipedia.org/wiki/Multiplicity_(mathematics) , both of which mention multisets.



                                          Another term that is used in the context of eigenvalues is "spectrum": the multiplicity of the eigenvalues is important, but there is no canonical order (other than the normal order of the real numbers, but that doesn't apply if they are complex). When you diagonalize or take the Jordan canonical form of a matrix, it matters how many times each eigenvalue appears, but putting the eigenvalues in a different order results in the same matrix, up to similarity.






                                          share|cite|improve this answer









                                          $endgroup$

















                                            1












                                            $begingroup$

                                            If two objects can be distinguished by the number of times an element appears in them, that is called "multiplicity". So the more mathy version of "finite collection of unordered objects that are not necessarily distinct" would be "unordered finite collection with multiplicity" or "finite collection with multiplicity but not order".



                                            The single-word term for unordered collections with multiplicity is "multi-set", but I don't think there's any single-word term for finite multi-sets. Googling "math collection multiplicity no order" returns http://mathworld.wolfram.com/Set.html and https://en.wikipedia.org/wiki/Multiplicity_(mathematics) , both of which mention multisets.



                                            Another term that is used in the context of eigenvalues is "spectrum": the multiplicity of the eigenvalues is important, but there is no canonical order (other than the normal order of the real numbers, but that doesn't apply if they are complex). When you diagonalize or take the Jordan canonical form of a matrix, it matters how many times each eigenvalue appears, but putting the eigenvalues in a different order results in the same matrix, up to similarity.






                                            share|cite|improve this answer









                                            $endgroup$















                                              1












                                              1








                                              1





                                              $begingroup$

                                              If two objects can be distinguished by the number of times an element appears in them, that is called "multiplicity". So the more mathy version of "finite collection of unordered objects that are not necessarily distinct" would be "unordered finite collection with multiplicity" or "finite collection with multiplicity but not order".



                                              The single-word term for unordered collections with multiplicity is "multi-set", but I don't think there's any single-word term for finite multi-sets. Googling "math collection multiplicity no order" returns http://mathworld.wolfram.com/Set.html and https://en.wikipedia.org/wiki/Multiplicity_(mathematics) , both of which mention multisets.



                                              Another term that is used in the context of eigenvalues is "spectrum": the multiplicity of the eigenvalues is important, but there is no canonical order (other than the normal order of the real numbers, but that doesn't apply if they are complex). When you diagonalize or take the Jordan canonical form of a matrix, it matters how many times each eigenvalue appears, but putting the eigenvalues in a different order results in the same matrix, up to similarity.






                                              share|cite|improve this answer









                                              $endgroup$



                                              If two objects can be distinguished by the number of times an element appears in them, that is called "multiplicity". So the more mathy version of "finite collection of unordered objects that are not necessarily distinct" would be "unordered finite collection with multiplicity" or "finite collection with multiplicity but not order".



                                              The single-word term for unordered collections with multiplicity is "multi-set", but I don't think there's any single-word term for finite multi-sets. Googling "math collection multiplicity no order" returns http://mathworld.wolfram.com/Set.html and https://en.wikipedia.org/wiki/Multiplicity_(mathematics) , both of which mention multisets.



                                              Another term that is used in the context of eigenvalues is "spectrum": the multiplicity of the eigenvalues is important, but there is no canonical order (other than the normal order of the real numbers, but that doesn't apply if they are complex). When you diagonalize or take the Jordan canonical form of a matrix, it matters how many times each eigenvalue appears, but putting the eigenvalues in a different order results in the same matrix, up to similarity.







                                              share|cite|improve this answer












                                              share|cite|improve this answer



                                              share|cite|improve this answer










                                              answered yesterday









                                              AcccumulationAcccumulation

                                              7,1752619




                                              7,1752619



























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                                                  Cannot Extend partition with GParted The 2019 Stack Overflow Developer Survey Results Are In Announcing the arrival of Valued Associate #679: Cesar Manara Planned maintenance scheduled April 17/18, 2019 at 00:00UTC (8:00pm US/Eastern) 2019 Community Moderator Election ResultsCan't increase partition size with GParted?GParted doesn't recognize the unallocated space after my current partitionWhat is the best way to add unallocated space located before to Ubuntu 12.04 partition with GParted live?I can't figure out how to extend my Arch home partition into free spaceGparted Linux Mint 18.1 issueTrying to extend but swap partition is showing as Unknown in Gparted, shows proper from fdiskRearrange partitions in gparted to extend a partitionUnable to extend partition even though unallocated space is next to it using GPartedAllocate free space to root partitiongparted: how to merge unallocated space with a partition