AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |
Back to Blog
Dino cube flip one edge8/11/2023 The end result is a solved cube with the color scheme flipped. If BLUE is F ront and ORANGE is L eft do: Moving the orange edge to the opposite side: L, B. I do this with every corner in the cube and then flip the middle layer like how you can do it on a normal Square-1 so that two opposing sides are switched. First, move the other flipped edge to the opposite side. For example, instead of making a corner with yellow on top, red on the left, and green on the right (how it would be normally) I can pair the corner wedges so that the red is on the right and green on the left. Flip the color scheme: You can intentionally put the corners together incorrectly so it seems like the top and bottom are flipped. You can also make a Square-0 where you bandage each full 60-degree corner with its adjacent edge (although this can be done on a regular Sq-1 too) or some sort of "Square-0 dino cube" where you stick together a 30-degree corner wedge with another edge piece and its opposing corner wedge, basically making it all edges. I haven't been able to solve that particular challenge yet, but I peeled the tape off and invented a bunch of other cool things. I taped every other piece together in the layers to make what I call a "Square-6" because it has 6 pieces per layer. Literally any bandage mod you want: Since this cube has smaller "piece increments" than a Square-1, you can make a lot of fun bandage challenges. However, Square-2 isn't a super competitive market so there aren't many other options you can go to. I'm not a super huge fan of how there's magnets in every single top and bottom layer piece, though, because you can just feel that cliclicliclicliclick with every turn and it sort of bothers me. The slice isn't magnetic, which I don't mind. The turning on this is pretty smooth even out of the box, and although it's pretty dry-feeling I haven't lubed it yet so far. I find the solution pretty simple: I just pair up the pointy corner pieces until they're like regular corners, then solve it like a regular Square-1. until you've made your way to the last piece and the puzzle is completely solved.I only recently learned how to speedsolve Square-1, so I figured this would be the logical next step. 24 positions an edge piece can be in once you consider flipping. Tip for solving the Floppy Cube: start with bringing a single corner piece to its right location, then continue by flipping both adjacent edges to their right orientation, keep making your way around the puzzle from both sides by solving their adjacent corners etc. On one hand jumbling allows it to be scrambled in over 3 million different combinations (comparing to only 192 on the original Floppy Cube), however this degree of freedom to rotate the edges independantly from each other also makes it much easier to solve. Counterintuitively, the Super Floppy Cube (or Edge Cube) is not harder to solve than the original Floppy Cube. In the year 2019, the Rubik's Brand created their own version of the Super Floppy Cube and named it the " Rubik's Edge". This of course makes the puzzle lose its "flat" appearance and you can scarmble it into different shapes. The Super Floppy Cube is almost identical to the Floppy Cube only it also allows "jumbling" - turning the edges independantly from each other, making it possible to move the corners around and even put all of them around a single edge piece. In 2009, the inventor of this puzzle, Katsuhiko Okamoto, also invented its successor, the " Super Floppy Cube". A quick computer analysis shows that while most of these combinations can be solved in 4 or 5 moves, the maximum amount of moves required to solve this puzzle is 8 (for the single case of the superflip pattern). This fact results in a very small amount of possible combinations for this puzzle - only 192. The interesting thing about the Floppy Cube is that its edges can flip but not move, while its corners can move but not be flipped in place (their orientation is determined by their position). The wonky shape of the center piece while twisting the edge pieces is what gives the puzzle its name. The name "Floppy Cube" comes from the fact that in order for the mechanism to function properly, the middle square bends slightly upward and downwards to allow for the turning of the side pieces. The puzzle is manufactured by Gentosha Toys since 2009. It was originally invented in 2004 by Katsuhiko Okamoto, a Japanese inventor specializing in Rubik's Cube modifications. The puzzle consists of 9 cubes ordered as a 3x3 square grid and colored accordingly. (The only difference is that on a picture cube the center pieces have an orientation, which is not very difficult to fix after first solving the whole cube the regular way. Flipping in pairs is done identically in picture cubes and regular ones. You can think of the Floppy Cube as basically the middle layer of a Rubik's Cube. This is the only way, because edge pieces can only ever be flipped in pairs.
0 Comments
Read More
Leave a Reply. |