Can you place ten tetrominoes inside an 8x8 grid, such that they do not overlap or touch each other orthogonally (horizontally or vertically) ?
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asked Jun 13, 2022 at 5:35
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2$\begingroup$ Another way of articulating this is to find an 8 x 8 pixel binary image for which performing connected-component labelling results in exactly 10 components of area 4. $\endgroup$– WyckCommented Jun 13, 2022 at 15:38
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$\begingroup$ ok I'll wait then. But I can't give the tick to all 3... $\endgroup$– Dmitry KamenetskyCommented Jun 14, 2022 at 11:03
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1$\begingroup$ The solution already existed on the site puzzling.stackexchange.com/questions/90126/… $\endgroup$– mathlanderCommented Mar 22 at 20:41
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3 Answers
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As promised, here are the three solutions that my computer found.
The first was already found by franck vivien (and Bass), the second by JLee.
answered Jun 15, 2022 at 15:12
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what about the following arrangement of
8 T tetrominoes + 2 squares?
I found it manually by searching arrangement of same pieces, then had to change a bit strategy
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$\begingroup$ Well done! Can you find any other solutions? $\endgroup$ Commented Jun 13, 2022 at 7:46
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3$\begingroup$ I have confirmed by computer that there are two other solutions (ignoring rotation/reflection). If no one finds these, I'll post them in a day or two. $\endgroup$ Commented Jun 13, 2022 at 10:32
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1$\begingroup$ @JLee You are talking about the independent domination number. You might be interested in my answer to this closely related problem. $\endgroup$– RobPrattCommented Jun 13, 2022 at 15:11
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3$\begingroup$ @JLee To see that $4$ is a lower bound for the independent domination number, note that no two of the following four tetrominoes can be blocked by a single tetromino: $$\begin{matrix} 1 &. &. &. &. &2 &2 &2 \\ 1 &1 &. &. &. &. &2 &. \\ 1 &. &. &. &. &. &. &. \\ . &. &. &. &. &. &. &. \\ . &. &. &. &. &. &. &. \\ . &. &. &. &. &. &. &3 \\ . &4 &. &. &. &. &3 &3 \\ 4 &4 &4 &. &. &. &. &3 \\ \end{matrix} $$ $\endgroup$– RobPrattCommented Jun 13, 2022 at 20:20
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1$\begingroup$ Let us continue this discussion in chat. $\endgroup$– JLeeCommented Jun 13, 2022 at 20:29
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Now that I realize we don't have to use only T's, here is one solution:
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$\begingroup$ Well done. This is the original solution I had in mind. Now there is one more solution left. Can you find it? $\endgroup$ Commented Jun 13, 2022 at 22:11
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1$\begingroup$ I tried for about 3 hours. Gotta take a break. Thx for the fun puzzle. $\endgroup$– JLeeCommented Jun 13, 2022 at 22:23