A rectangular room has a floor tiled with tiles of two shapes: 1×4 and 2×2

Question

A rectangular room has a floor tiled with tiles of two shapes: 1×4 and 2×2. The tiles completely cover the floor of the room, and no tile has been damaged, or cut in half. One day, a heavy object is dropped on the floor and one of the tiles is cracked. The handyman removes the damaged tile and goes to the storage to get a replacement. But he finds that there is only one spare tile, and it is of the other shape. Can he rearrange the remaining tiles in the room in such a way that the spare tile can be used to fill the hole?

Source of the puzzle Math.SE

Answer 1

The answer is:

No

Suppose we colour the floor of the room under the tiles like so:

extending up to the edge of the grid.

Then:

Each 2x2 tile covers 1 black dot (an odd number), while each 1x4 tile covers either 0 or 2 dots (an even number)

So:

Changing one tile for the other would change the parity of the number of dots it is possible to cover, however the dots don't change, so this is impossible.

Answer 2

One room is very small. On the top are two tiles 2x2 each side by side and below them is one 1x4 tile, so the room is rectangular 3 vertical x 4 horizontal. Like this:

  1   2   3   4
+---+---+---+---+
|       |       | 1
+       +       +
|       |       | 2
+---+---+---+---+     
|               | 3
+---+---+---+---+

Break any one of the three tiles and you can see by inspection that there is no rearrangement with the new tile of the other shape that can make a rectangle.

This is one counterexample so the answer to the question, in general, is no.

Of course it does not address the infinite number of other possibilities of other tile rooms. But all you need is one counterexample.

Answer 3

The answer is:

No.

Reason:

Tiles are glued in place. To rearrange them would require destroying all the tiles and the handyman will be left with only a single tile.

Answer 4

Yes (with a cheat):

There is nothing in the puzzle saying the spare tile is not to be cut, or even that the tiles to be rearranged are not to be cut (only that they had not been cut before).

or even:

no tile has been cut in half. It could have been cut in, say, quarters.

or:

He can rearrange the tiles so that the floor is no longer rectangular, then the parity argument does not hold. The easy way is to let parts of tiles extend to the jar below the door.

Answer 5

The answer is no, and not only for rectangular shapes, but any shape of room, with the assumption that there exists a tiling.And the proof is as follows:

Embedding the room in a big chessboard, you can number the rows and columns. You first consider rows and subtract the total number of squares in rows with odd index from those with even index. Now, for the given tiling you observe that neither 2x2 nor 1x4 put vertically contribute to this number. So only 1x4 put horizontally contribute, either 4 or -4. From this it is immediate that the number of horizontal 1x4 is well defined mod2. You do the same for columns and you get the number of vertical 1x4 mod2. Adding, the total number of 1x4 tiles is well defined mod2, and no such rearrangement exists