Please read the advanced Rubik's Cube Notation if you don't know what the letters mean. All pictures show the top face of the cube as these are PLL algorithms If you know how to solve the cube sighted, you may already know a few of these from the advanced Rubik's Cube tutorial: Using the Old Pochmann method, you can solve the cube with as little as five algorithms. Solving the cube blindfolded requires considerably less algorithms than solving it sighted. But Old Pochmann is still capable of achieving times under 2 minutes if you’re interested in speedsolving with it. However, speedsolvers who compete to solve the cube blindfolded as fast as possible have switched to newer and faster methods. Nowadays, Old Pochmann is still used by many. He reduced the NR from 35 minutes to just 7. He managed to break his own record 4 times in 23 months, before he lost it to Thomas Kohn. It was developed by Stefan Pochmann who in 2004 secured the German National Record for 3x3 Blindfolded. Old Pochmann (or OP), is one of the oldest blindfolded methods to date. In this article I’m going to teach you how to do it. There is nothing more rewarding than taking off a blindfold and seeing a solved Rubik’s cube in front of you. But in reality, it’s just as easy, if not easier. Most people believe that solving the cube sighted requires amazing memory capacity, let alone solving it blindfolded. But for those of you who want an extra challenge, something to really test your memory and ability, you might want to try to solve the cube blindfolded.īlindfolded solving is popular amongst speedcubers, but there are a lot of people who just like to do it for fun. You could go down to simpler puzzles, like the 2x2 or the Pyraminx. Sure, you can go up to the bigger cubes such as the 4x4, 5x5 or further. However, once you master the cube, you want more. To rotate one corner 120 degrees, use the following algorithm.This will keep all other pieces oriented. To rotate one center 180 degrees, use the following algorithm: 圆.Remember! There are 2 sets of 2 identically colored edges! Use this to your advantage (U-perms).Turn the top layer 45 degrees so you have it facing you just like a side on the Rubik's Cube. Think of the top layer as if it were the regular Rubik's Cube.Make sure that the edges are correctly oriented, and detemine if you have the bar case or the crooked bar case.Build this on 2 of the colors from your 2x2x2 block (red/blue/yellow in this case).Just reverse one of the edges with the following algorithm: R U2 R' U2 L U' L'. You may end up with it inversed, but it is not a parity. Place together one corner and edge, and then place the second edge and insert them into place.#2 - Build the corner and 2 outer edges of 2 colors Repeat the step above for the same corner 3 times (once for each edge).Now insert (using F2L,) the corner with one of the edges (yellow, red, or blue).To do this, first orient 3 centers in the proper direction (so you have yellow to blue, blue to red, red to yellow) on the 3 edges going clockwise.Here is a small step by step guide, based off of the Petrus Method, that may help you: 1.2 #2 - Build the corner and 2 outer edges of 2 colors.1.1 #1 - Make the cross on the first layer.
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