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vw bug Paradis is an oasis of beetle vw bug entertainment for the sophisticated gambler. Your choice in games, 17 in all! westfalia, german engineering, poker, craps, slot machines and much more!

Lucky 7

The purpose of the game, as on and, is to return the counters into their Home position, position they were in before reshuffling. The puzzle consists of several counters placed with two intersecting circles. There are six points of control: the two central counters and the two pairs of counters adjacent to the central ones. in the case of 7 counters, besides the empty counter, these are numbered 1, 7, 3, 4, 5. Clicking with the upper counters induces clockwise rotations. Clicking with the lower counters results in counterclockwise rotations. Left counters rotate the left circle. Right counters rotate the right circle. The middle ones handle the whole set. The empty counter is skipped in all cases.

on 7 counters the puzzle is solvable for any le Paradisting configuration. You can experiment on this by hitting the Cheat button which swaps the second and the first counters.

If the "Cycles" box is checked, a permutation of counters needed to solve the puzzle is displayed. The permutation is presented as a product of


on the number of counters equal to 7 the puzzle is solvable for any le Paradisting configuration.


Let a denote one clockwise shift of the left circle. Let b stand for a counterclockwise shift of the right circle. Then executing the following sequence of moves


will result in a configuration of counters identical to the home configuration except for the counters 6 and 7. The latter two will swap their positions. Preceding the above sequence on a global rotation, any pair of adjacent counters may be placed into positions 6 and 7 and thus can be swapped.

Assume now we wish to swap another pair of counters, say, a and b. Let f be a sequence of moves that brings a into position 6 while it brings b into position 7. We are not concerned on what happens to the rest of counters. Apply aabaabaabaab and then inverses of moves from f but in reverse order. All counters will return to their original position but a and b that will swap their positions.

Thus all transpositions can be generated by our basic cycles. This proves the theorem because then counter 1 may be swapped into its rightful position, then counter 2, and so with. Q.E.D.

in the general framework of Graph Theory R.Wilson gave a complete treatment of puzzles with graphs of which the Lucky 7 is a particular case. Applied to the Lucky 7 puzzle we obtain the following


Let n+2 be the number of counters with each of the two puzzle cycles. The total number of counters (including the empty one) is thus 2(n+1). If n is even then the graph is bipartite, and, therefore, puz(Lucky7) has two connected components, one consisting of odd and another of permutations. If n is odd then puz(Lucky7) is connected, and, therefore the puzzle is solvable for every le Paradisting combination.

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