The Patience puzzle, probably of Chinese origin, consists of an iron U-shaped piece and several rings that link around it. The physical shape of the puzzle is very difficult to describe verbally, but here is an attempt. This description of the puzzle is presented as a set of instructions for constructing the puzzle. Start with a flat piece of iron about 15 centimeters long by about two centimeters wide. Drill six holes in the piece of iron. Through each hole, place a rod. The rod should have a diameter slightly less than that of the hole so that it can move freely. One end of the rod is like the head of a nail and is larger than the hole to prevent it from coming free. The other end is looped around a metal ring with a diameter of about five centimeters. This completely prevents the iron rod from separating from the base. Each rod, in addition to going through the iron base, goes through the ring at the end of the rod to its right. The only rod free of this restriction is the rightmost rod. What has been described so far is one of the two components of the puzzle. The other component is another iron rod shaped like a U. the U is as long from the tips to the base as the original piece of iron with the holes in it. The ends of the U are looped around another ring of about five centimeters in diameter. In the puzzle's initial configuration, the U is placed through the rings so that it is held in place by the iron rods. Imagine starting with the U piece before the iron loop is placed at the end. Slide the legs of the U through the loops so that the iron rods securing the loops to the metal strip go up the center of the U. Placing the final ring at the ends of the U prevents it from coming out. The object of the puzzle is to free the U-shaped piece from the other piece. The following illustration (sideways) shows a three-ring case of this puzzle. If you look carefully, you can see that the first ring could be lifted over the edge of the U and slid down through the center of the U, thereby freeing the U from the first iron rod. The second ring can also be freed in the initial configuration since it is already over the rod for the first ring. The third ring cannot be moved, however, since it is blocked by the iron rod two which the first ring is attached. If the first first is removed, then the third ring is no longer blocked by the first ring's iron rod and can be removed freely. The second ring, however cannot be moved if the first ring is gone because it will then be blocked by the first ring in its new position outside of the U. Here is an illustration of the three-ring case. 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One such puzzle is called "Spin-Out". This puzzle consists of one plastic piece that encases another piece that can slide in and out of it. The movement of the smaller piece is restricted by discs that, when turned to one angle, lock the smaller piece inside the larger one and, when turned the other way, allow it to move. This puzzle is as difficult to describe as the first and, since I don't have one in front of me, I will not attempt to describe it. The object of this puzzle is to free the smaller piece from the larger one. The other puzzle that is like this one consists of a cylinder with rods protruding from the top. The rods can be slid from the center to the edge of the cylinder constrained by a series of discs in the center. The discs have cuts in them that allow some rods to move and force others in one place based on the relative rotations of the discs. The object here is to move all the rods from the inside to the outside. What makes these puzzles similar is that the physical shapes of the puzzles put the same restrictions on the movement of the pieces. Specifically, there is always one piece that is free to move. The only other piece that is free to move is the second one that is still attached to the base it is trying to be freed from. In the case of the original puzzle, consider the rings numbered from 1 to 6 with ring 1 being the one at the closed send of the U. Ring 1 can always be removed from or added to the U. In the initial state, when all rings are around the U, ring 2 is the other one that can be moved because it is second. If ring 1 is removed, then only two operations are possible: the restoration of ring 1 and the removal of ring 3. This is because ring 1 is always movable, and ring 3 is currently the second ring still attached to the U. This constraint leads to a recursive solution to the puzzle. Like the Towers of Hanoi, the number of steps to solve this puzzle is exponential in the number of rings.