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Grid Pathways (Posted on 2002-07-22) Difficulty: 5 of 5
(First things first - I don't know a solution to this, but the puzzle occurred to me a few hours ago, and I thought people might be interested in it)
 
Imagine a rectangular (or square) grid of any size, every square white. If the grid is "x" squares across and "y" squares high, what is the minimum number of squares ("n") that must be shaded so that no white square is adjacent to more than 2 other white squares?
(For this puzzle, diagonally adjacent squares are not considered to be adjacent)
 
So, for example, if the grid is simply a 3x3 then the only square that needs shading is the centre one, then all others squares only touch two others - i.e. for x=3 y=3, n=1
 
a) Is there an formula to calculate "n" that will work for all paired-values of "x" and "y"?
b) If not, what is "n" for a chessboard-sized x=8 y=8 (post your suggested minimum using a standard chess-like "A7" type of description for a list of all your shaded squares)?

See The Solution Submitted by Nick Reed    
Rating: 3.9167 (12 votes)

Comments: ( Back to comment list | You must be logged in to post comments.)
Some Thoughts re: | Comment 8 of 29 |
(In reply to by qball)

Actually, to generalize it, the answer is zero for any (x * 1) shape - a single row or column of boxes.

We can break up any rectangular area into such rows or columns by shading alternate lines of boxes. Thus for an area of (x * y), n will be <= (x*Y)/2.
  Posted by levik on 2002-07-22 10:36:22

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