Skip to main content
MathOverflow

Return to Question

replaced http://mathoverflow.net/ with https://mathoverflow.net/
Source Link
Community Bot
Community Bot
  • 1
  • 2
  • 3

This is a sequel of this postpost.

The boolean lattice $B_n$ is graded with rank numbers $\binom{n}{0}, \binom{n}{1}, \dots, \binom{n}{n}$, and $n2^{n-1}$ edges.

Question: Is a graded lattice with the above rank numbers and $n2^{n-1}$ edges, equivalent to $B_n$?

If it is not true, it would be useful (to me) to know up to which $n$ it is true.

This is a sequel of this post.

The boolean lattice $B_n$ is graded with rank numbers $\binom{n}{0}, \binom{n}{1}, \dots, \binom{n}{n}$, and $n2^{n-1}$ edges.

Question: Is a graded lattice with the above rank numbers and $n2^{n-1}$ edges, equivalent to $B_n$?

If it is not true, it would be useful (to me) to know up to which $n$ it is true.

This is a sequel of this post.

The boolean lattice $B_n$ is graded with rank numbers $\binom{n}{0}, \binom{n}{1}, \dots, \binom{n}{n}$, and $n2^{n-1}$ edges.

Question: Is a graded lattice with the above rank numbers and $n2^{n-1}$ edges, equivalent to $B_n$?

If it is not true, it would be useful (to me) to know up to which $n$ it is true.

Source Link
Sebastien Palcoux
Sebastien Palcoux
  • 27k
  • 5
  • 74
  • 186

Enumerative characterisation of boolean lattices II

This is a sequel of this post.

The boolean lattice $B_n$ is graded with rank numbers $\binom{n}{0}, \binom{n}{1}, \dots, \binom{n}{n}$, and $n2^{n-1}$ edges.

Question: Is a graded lattice with the above rank numbers and $n2^{n-1}$ edges, equivalent to $B_n$?

If it is not true, it would be useful (to me) to know up to which $n$ it is true.