Image of Bongard Problem whose self-sorting depends on examples in it vs. image of Bongard Problem that will sort any Bongard Problem with its solution on either its left or right regardless of examples chosen.

Image of Bongard Problem whose self-sorting depends on examples in it vs. image of Bongard Problem that will sort any Bongard Problem with the same solution as it on either its left or right regardless of examples chosen.

All examples are Bongard Problems fitting left or right in BP793.

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

Meta Bongard Problems appearing in BP793 that are @presentationinvariant necessarily fit right here.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

All examples are Bongard Problems fitting left or right in BP793.

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

Meta Bongard Problems appearing in BP793 that are @presentationinvariant necessarily fit right here.

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

Meta Bongard Problems appearing in BP793 that are @presentationinvariant necessarily fit right here.

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

Meta Bongard Problems appearing in BP793 that are @presentationinvariant necessarily fit right here.

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

All @presentationinvariant meta Bongard Problems that sort themselves fit right.

See BP793 "sorts self left vs. sorts self right".

See BP944 "sorts every BP on one side vs. doesn't".

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

It is interesting to think about how this Bongard Problem sorts itself. The only self-consistent answer is that it fits right.

See BP793 "sorts self left vs. sorts self right".

See BP944 "sorts every BP on one side vs. doesn't".

All @presentationinvariant meta Bongard Problems that sort themselves fit right.

See BP793 "sorts self left vs. sorts self right".

See BP944 "sorts every BP on one side vs. doesn't".

All @presentationinvariant meta Bongard Problems fit right.

See BP793 "sorts self left vs. sorts self right".

See BP944 "sorts every BP on one side vs. doesn't".

All @presentationinvariant Bongard Problems fit right.

See BP793 "sorts self left vs. sorts self right".

See BP944 "sorts every BP on one side vs. doesn't".

Image of Bongard Problem whose self-sorting depends on examples in it vs. image of Bongard Problem that will sort any BP with the same solution as it on either its left or right regardless of examples chosen.

See BP793 "categorizes self left vs. categorizes self right".

See BP793 "sorts self left vs. sorts self right".

All examples here are in the conventional format, i.e. white background, black vertical dividing line, and examples in boxes on either side.

Border cases are Bongard Problems that always self-sort one way given their particular visual format (e.g. fixed number of boxes), but self-sort a different way in another slightly different format.

Image of Bongard Problem whose self-sorting depends on examples in it vs. image of Bongard Problem that will sort any BP with the same solution as it on either its left or right.

Image of Bongard Problem whose self-sorting depends on examples in it vs. image of Bongard Problem that will sort any BP with the same solution as it on either its left or right regardless of examples chosen.

Image of Bongard Problem whose self-categorization depends on examples in it vs. image of Bongard Problem that will sort any BP with the same solution as it on either its left or right regardless of examples chosen.

See BP793 "categorizes self left vs. categorizes self right".

See BP793 "categorizes self left vs. categorizes self right".

See keyword @presentationinvariant for @meta Bongard Problems that sort all Bongard Problems based purely on solution.

Image of Bongard Problem whose self-categorization depends on examples in it vs. image of Bongard Problem that will sort any image of a BP in this format with its solution on either its left or right regardless of examples chosen.

Image of Bongard Problem whose self-categorization depends on examples in it vs. image of Bongard Problem that will sort any image of a BP in this format with its solution on either its own left or right regardless of examples chosen.

Image of Bongard Problem whose self-categorization depends on examples in it vs. image of Bongard Problem that will sort any image of a BP in this format with its solution on its own left or right regardless of examples chosen.