Let $G$ be a cubic graph which has a Hamiltonian circuit $C$.  In general, it is not possible to find a second Hamiltonian circuit which contains all the chords of $C$.  For example, the Wagner graph with $C$ being the outer circuit in the picture contains no such second Hamiltonian circuit.  

[![Wagner graph][1]][1]

But it is possible to add an additional chord so that the resulting graph contains a second Hamiltonian circuit including all chords, as in the second picture?

[![Wagner with chord][2]][2]

Our question is:

>**Question (EGME)** Let $G$ be a cubic graph which has a Hamiltonian circuit $C$.  Is it always possible to add a chord of $C$ in $G$ so that the resulting graph has a Hamiltonian circuit containing all the chords? Please provide proof or counterexample.

Computer experiments seem to suggest this might be the case.

  [1]: https://i.sstatic.net/wxHgu.png
  [2]: https://i.sstatic.net/TimvH.png