3/25/2023 0 Comments 3x3 super cube flip edge![]() Now solving this parity should be simple. If you do this to a solved cube, you can see how the algorithm affects the rest of the puzzle, but this is not noticeable during edge pairing. The flipping algorithm is as follows – R U R’ F R’ F’ R. This is used to flip an edge during edge solving (this algorithm can’t be used for OLL parity because it affects other parts of the cube that aren’t necessary to preserve during edge pairing such as corner orientation and the positions of the edges on top. If you know how to solve a 4x4, you will know the flipping algorithm. In the picture, the blue-red edge on the left needs to be paired with the red-blue edge on the right, and the same for the blue-orange edges. These two edges look the same, but inverted. It happens when all but two edges are solved. For even layered cubes, this isn’t technically a parity at all, but it still requires an extra “algorithm” to solve, even though it is very short and just involves using the same moves you do to solve the rest of the edges, but in a different order. Once you have solved all the corners, move onto the next step.One type of pseudo-parity is edge parity. If all of the corners are solved, then continue onto the next step, otherwise see if you have the same or another case, and follow the instructions for that case. You MUST make sure that the right corner closest to you is NOT green. In this case, follow the 2nd cube example in the first picture, where there is a corner that is not green in the closer right hand corner, and any of the other corners are green. There is more than one corner piece with green on top. In this case, follow the 3rd cube example in the first picture, making sure the cube is facing you the right way, and preform the algorithm. The are no corner pieces with green on top. In this case, make sure that that corner piece is on your right, and closest to you, then preform the algorithm once ( first cube example in the first picture). There are three cases for this step: - There is only one corner piece with green on top. We need the green to come to the top of the cube. That's because the green is on the side of the cube. For example, in the first picture you see that two of the corners are not green. Okay, now that you have all the Top (Bottom) corners in place, you have to rotate them in place so that the colors match up with their respecive sides. (I need permission for the pictures first, so they'll be up by tomorrow, probably) I've included some pictures that help explain all the moves. L means turn " Left " " " " " " " " " " ", or down R means turn " Right " " " " " " ", or up. For Example: U means turn the top layer 90 clockwise as if you were looking at it, or to the left. (You can just rotate the cube so that the blue part is facing up) -Rotate the cube so that the first blue piece you found is in the top-left hand corner -Find another Blue corner piece, this time with one of the same "side colors" as the first one you picked (In my case red or white) - Get your target (new) corner piece right under where you want it to go by rotating the bottom or side rows or columns, keeping the original piece in the top left hand corner, then follow the steps in the pictures until you have all four top corners solved! As for notation, a capital letter by itself represents a 90 degrees clockwise turn if you were looking at the face itself. Pick your favorite color (I always use blue, some use white, it really doesn't matter) -Locate one of the corners -Make it so that your favorite color (we'll use blue from now on) is facing upwards and that the other two colors on the corner piece are on the side of the cube. ![]() So, what you want to do now is solve the top corners.
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