Amorphous proper classes in MKWhat sort of structure can amorphous sets support?Splitting infinite setsFor models of ZF, if for some $A$ we have $L[A] = L$, what can we deduce about $A$?What sort of structure can amorphous sets support?Some questions about Ackermann set theoryHartogs number and the three power setsCan $mathbbR$ be partitioned into dedekind-finite sets?How many Dedekind-finite sets can $mathbbR$ be partitioned into?Can ZFC be interpreted in a set theory having finitely many ranks?An axiom for collecting proper classesDo choice principles in all generic extensions imply AC in $V$?

Amorphous proper classes in MK


What sort of structure can amorphous sets support?Splitting infinite setsFor models of ZF, if for some $A$ we have $L[A] = L$, what can we deduce about $A$?What sort of structure can amorphous sets support?Some questions about Ackermann set theoryHartogs number and the three power setsCan $mathbbR$ be partitioned into dedekind-finite sets?How many Dedekind-finite sets can $mathbbR$ be partitioned into?Can ZFC be interpreted in a set theory having finitely many ranks?An axiom for collecting proper classesDo choice principles in all generic extensions imply AC in $V$?













4












$begingroup$


Working in $ZFC$ every cardinal is either finite or in bijection with a proper subset of itself (Dedekind infinite). Without Choice it is consistent that there are infinite sets which can't be partitioned into two infinite subsets (amorphous sets), so the above statement no longer holds since a bijection to a proper subset implies a partition into two disjoint infinite subsets as proven on the wiki -- all of this is discussed in the question and answers here much more succinctly.




Is it consistent in $MK$ without Global Choice that there are amorphous proper classes, meaning proper classes which can't be partitioned into two proper class sized subclasses?




Directly generalizing the argument given on the wiki article for amorphous sets seems to require a notion of transfinite function composition which can be defined in good categorical generality using colimits, but it is not immediately apparent how to generalize the recursive definition of the $S_i$'s for limit ordinal $i$ since the given definitions depend on immediate predecessor steps.










share|cite|improve this question











$endgroup$
















    4












    $begingroup$


    Working in $ZFC$ every cardinal is either finite or in bijection with a proper subset of itself (Dedekind infinite). Without Choice it is consistent that there are infinite sets which can't be partitioned into two infinite subsets (amorphous sets), so the above statement no longer holds since a bijection to a proper subset implies a partition into two disjoint infinite subsets as proven on the wiki -- all of this is discussed in the question and answers here much more succinctly.




    Is it consistent in $MK$ without Global Choice that there are amorphous proper classes, meaning proper classes which can't be partitioned into two proper class sized subclasses?




    Directly generalizing the argument given on the wiki article for amorphous sets seems to require a notion of transfinite function composition which can be defined in good categorical generality using colimits, but it is not immediately apparent how to generalize the recursive definition of the $S_i$'s for limit ordinal $i$ since the given definitions depend on immediate predecessor steps.










    share|cite|improve this question











    $endgroup$














      4












      4








      4





      $begingroup$


      Working in $ZFC$ every cardinal is either finite or in bijection with a proper subset of itself (Dedekind infinite). Without Choice it is consistent that there are infinite sets which can't be partitioned into two infinite subsets (amorphous sets), so the above statement no longer holds since a bijection to a proper subset implies a partition into two disjoint infinite subsets as proven on the wiki -- all of this is discussed in the question and answers here much more succinctly.




      Is it consistent in $MK$ without Global Choice that there are amorphous proper classes, meaning proper classes which can't be partitioned into two proper class sized subclasses?




      Directly generalizing the argument given on the wiki article for amorphous sets seems to require a notion of transfinite function composition which can be defined in good categorical generality using colimits, but it is not immediately apparent how to generalize the recursive definition of the $S_i$'s for limit ordinal $i$ since the given definitions depend on immediate predecessor steps.










      share|cite|improve this question











      $endgroup$




      Working in $ZFC$ every cardinal is either finite or in bijection with a proper subset of itself (Dedekind infinite). Without Choice it is consistent that there are infinite sets which can't be partitioned into two infinite subsets (amorphous sets), so the above statement no longer holds since a bijection to a proper subset implies a partition into two disjoint infinite subsets as proven on the wiki -- all of this is discussed in the question and answers here much more succinctly.




      Is it consistent in $MK$ without Global Choice that there are amorphous proper classes, meaning proper classes which can't be partitioned into two proper class sized subclasses?




      Directly generalizing the argument given on the wiki article for amorphous sets seems to require a notion of transfinite function composition which can be defined in good categorical generality using colimits, but it is not immediately apparent how to generalize the recursive definition of the $S_i$'s for limit ordinal $i$ since the given definitions depend on immediate predecessor steps.







      set-theory lo.logic axiom-of-choice






      share|cite|improve this question















      share|cite|improve this question













      share|cite|improve this question




      share|cite|improve this question








      edited 51 mins ago









      David Roberts

      17.5k463177




      17.5k463177










      asked 3 hours ago









      Alec RheaAlec Rhea

      1,3331819




      1,3331819




















          1 Answer
          1






          active

          oldest

          votes


















          5












          $begingroup$

          Unless I'm missing something, the answer is no: we have a surjection $s$ from a given proper class to the class of ordinals - sending each element to its rank and then "collapsing" appropriately - and this lets us partition the original class into two proper classes, for example $s^-1(limits)$ versus $s^-1(successors)$.






          share|cite|improve this answer









          $endgroup$












          • $begingroup$
            Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
            $endgroup$
            – Alec Rhea
            3 hours ago






          • 1




            $begingroup$
            @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            Tsk tsk tsk. TSK. TSK. TSK.
            $endgroup$
            – Asaf Karagila
            1 hour ago






          • 3




            $begingroup$
            @Noah Asaf is calling you uncool for not knowing.
            $endgroup$
            – David Roberts
            49 mins ago











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          1 Answer
          1






          active

          oldest

          votes








          1 Answer
          1






          active

          oldest

          votes









          active

          oldest

          votes






          active

          oldest

          votes









          5












          $begingroup$

          Unless I'm missing something, the answer is no: we have a surjection $s$ from a given proper class to the class of ordinals - sending each element to its rank and then "collapsing" appropriately - and this lets us partition the original class into two proper classes, for example $s^-1(limits)$ versus $s^-1(successors)$.






          share|cite|improve this answer









          $endgroup$












          • $begingroup$
            Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
            $endgroup$
            – Alec Rhea
            3 hours ago






          • 1




            $begingroup$
            @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            Tsk tsk tsk. TSK. TSK. TSK.
            $endgroup$
            – Asaf Karagila
            1 hour ago






          • 3




            $begingroup$
            @Noah Asaf is calling you uncool for not knowing.
            $endgroup$
            – David Roberts
            49 mins ago
















          5












          $begingroup$

          Unless I'm missing something, the answer is no: we have a surjection $s$ from a given proper class to the class of ordinals - sending each element to its rank and then "collapsing" appropriately - and this lets us partition the original class into two proper classes, for example $s^-1(limits)$ versus $s^-1(successors)$.






          share|cite|improve this answer









          $endgroup$












          • $begingroup$
            Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
            $endgroup$
            – Alec Rhea
            3 hours ago






          • 1




            $begingroup$
            @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            Tsk tsk tsk. TSK. TSK. TSK.
            $endgroup$
            – Asaf Karagila
            1 hour ago






          • 3




            $begingroup$
            @Noah Asaf is calling you uncool for not knowing.
            $endgroup$
            – David Roberts
            49 mins ago














          5












          5








          5





          $begingroup$

          Unless I'm missing something, the answer is no: we have a surjection $s$ from a given proper class to the class of ordinals - sending each element to its rank and then "collapsing" appropriately - and this lets us partition the original class into two proper classes, for example $s^-1(limits)$ versus $s^-1(successors)$.






          share|cite|improve this answer









          $endgroup$



          Unless I'm missing something, the answer is no: we have a surjection $s$ from a given proper class to the class of ordinals - sending each element to its rank and then "collapsing" appropriately - and this lets us partition the original class into two proper classes, for example $s^-1(limits)$ versus $s^-1(successors)$.







          share|cite|improve this answer












          share|cite|improve this answer



          share|cite|improve this answer










          answered 3 hours ago









          Noah SchweberNoah Schweber

          19.5k349146




          19.5k349146











          • $begingroup$
            Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
            $endgroup$
            – Alec Rhea
            3 hours ago






          • 1




            $begingroup$
            @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            Tsk tsk tsk. TSK. TSK. TSK.
            $endgroup$
            – Asaf Karagila
            1 hour ago






          • 3




            $begingroup$
            @Noah Asaf is calling you uncool for not knowing.
            $endgroup$
            – David Roberts
            49 mins ago

















          • $begingroup$
            Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
            $endgroup$
            – Alec Rhea
            3 hours ago






          • 1




            $begingroup$
            @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
            $endgroup$
            – Asaf Karagila
            3 hours ago






          • 1




            $begingroup$
            Tsk tsk tsk. TSK. TSK. TSK.
            $endgroup$
            – Asaf Karagila
            1 hour ago






          • 3




            $begingroup$
            @Noah Asaf is calling you uncool for not knowing.
            $endgroup$
            – David Roberts
            49 mins ago
















          $begingroup$
          Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
          $endgroup$
          – Alec Rhea
          3 hours ago




          $begingroup$
          Very nice, you haven't missed anything -- if I create a moving target and ask about $MK-Foundation$ is the answer still trivially no?
          $endgroup$
          – Alec Rhea
          3 hours ago




          1




          1




          $begingroup$
          @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
          $endgroup$
          – Asaf Karagila
          3 hours ago




          $begingroup$
          @Alec: In that case the answer is positive. Just do Fraenkel's model over a proper class of atoms.
          $endgroup$
          – Asaf Karagila
          3 hours ago




          1




          1




          $begingroup$
          @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
          $endgroup$
          – Asaf Karagila
          3 hours ago




          $begingroup$
          @Alec: That's the OG model for amorphous sets. Just remember that ZFA (or ZFU) is equivalent to ZF-Foundation with Quine atoms for the atoms.
          $endgroup$
          – Asaf Karagila
          3 hours ago




          1




          1




          $begingroup$
          Tsk tsk tsk. TSK. TSK. TSK.
          $endgroup$
          – Asaf Karagila
          1 hour ago




          $begingroup$
          Tsk tsk tsk. TSK. TSK. TSK.
          $endgroup$
          – Asaf Karagila
          1 hour ago




          3




          3




          $begingroup$
          @Noah Asaf is calling you uncool for not knowing.
          $endgroup$
          – David Roberts
          49 mins ago





          $begingroup$
          @Noah Asaf is calling you uncool for not knowing.
          $endgroup$
          – David Roberts
          49 mins ago


















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