Step 1 Current Average: 1:30+ or don't know how to solve a Rubik's Cube Goal Average: 1:00-1:19 Learn how to solve the cube from here: Badmephisto's Youtube Video Tutorial He teaches you a simplified version of CFOP that will help you easily progress later on. NOTE: It is possible to achieve below one minute with this method, just by practicing. If you are still stuck, follow these tips: Get a better cube. Cubes like the Dayan ZhanChi and Dayan GuHong v2 are great – they allow for effortless turning and corner cutting. Lubricate your cube too – a decent method is using silicone spray, but using silicone oil is better. Use finger tricks (this will speed up your times A LOT). You can become better at finger tricks by practicing. Decrease your last layer time (to about 25 seconds or less) - you can do this by improving your recognition and execution for each case (to do this you must practice) Try to reduce pauses, meaning, try to never stop turning during your solve. This can be done by practicing a lot! Work on the cross. Try to do the cross in 12 moves or less, and under 12 seconds. Here is a link that will help you achieve/learn this (and then practice it a lot): http://cubefreak.net/speed/cfop/cross.php Practice - The more you practice, the faster you'll become Once you get a little used to the beginner method, you can also try inserting the first layer/side corners from different angles. See Macky's guide: http://cubefreak.net/speed/cfop/f2l_extensions.php Use a timer to see your progression: You can use web based timers or PC timers. Estimated Time: 2-4 weeks --------------------------------------------------------------------------- Step 2 Current Average: 1:00-1:19 Goal Average: 40-49 seconds Learning 4 Look Last Layer (4LLL). This means solving the last layer in 4 steps – consisting of Orienting the Last Layer in 2 steps (2 Look OLL), and Permuting the Last Layer in 2 steps (2 Look PLL). 2 Look OLL Edge Orientation - 2 algorithms Corner Orientation - 7 algorithms 2 Look PLL Corner Permutation - 3 Algorithms Aa/Ab and E/V/Y/Na/Nb Edge Permutation - 4 algorithms - Ua, Ub, Z, H Here are some links explaining how to use the 4LLL (2 Look OLL + 2 Look PLL) algorithms for your last layer: 4 Look Last Layer Guide: http://www.scribd.com/doc/131985555/4-Look-Last-Layer 2 Look OLL (video): http://youtube.com/watch?v=DTYvklyOpVM 2 Look PLL (video): http://youtube.com/watch?v=S61q3FYVFis Estimated Time: 2-4 weeks --------------------------------------------------------------------------- Step 3 Current Average: 40-49 seconds Goal Average: 30-39 seconds Now learn intuitive First Two Layers (F2L). Your times will temporarily worsen, but after a few days of practicing, they will significantly become better! Practice your F2L A LOT, and never give up! Estimated Time: 2-4 weeks --------------------------------------------------------------------------- Step 4 Current Average: 30-39 seconds Goal Average: 20-29 seconds Now, learn the rest of the PLL algorithms. Full PLL is 21 Algorithms (you have already learned 7 algorithms for 2-Look PLL) (Links where to learn the algorithms are at the bottom of this guide). Learn how to look ahead during F2L - this will TREMENDOUSLY help your times. Looking ahead is one of the most important aspects of improving. Estimated Time: 2-6 weeks --------------------------------------------------------------------------- Step 5 Current Average: 20-29 seconds Goal Average: 15-19 seconds Practice your F2L, learn/make up your own techniques, and possibly learn some of the algorithms for odd cases. (Links where to learn the F2L algorithms are at the bottom of this guide) Also, remember to look ahead (this is EXTREMELY important)! Try to complete your cross and F2L in 12 seconds or less on average. Work on improving your speed for your OLLs and PLLs. Use triggers, and try to get all of the algorithms under 3 seconds for recognition and execution. Get your cross below 4 seconds consistently (make sure you solve the cross on the bottom of the cube.) Estimated Time: 1-2 months --------------------------------------------------------------------------- Step 6 Current Average: Sub 20 Seconds Goal Average: Below 15 seconds Get your cross and F2L done in under 10 seconds Get your cross done in ~2 seconds on average Learn how to do Extended Cross (x-cross) Learn the rest of the OLL algorithms - 57 algorithms (Note that learning the OLLs will only help you by 2 second or less) To learn/memorize the OLL's easier look at Badmephisto's video Practice, practice, and keep on practicing!!! Estimated Time: 4+ months -------------------------------------------------------------------- Step 7 (written by PoHos1) Current Average: Below 15 Seconds Goal Average: Sub10 or around 10 Practice a lot f2l try to allways see first pair in f2l (inspection time) Get your cross done in about 1.5 seconds Practice yours Extended Cross (x-cross) learn all pll and oll about 1.5 seconds like your cross (also you can learn COLL if you want some time can help ) Practice, practice, and keep on practicing!!! Estimated Time: its only on you (at least 6 mounts) --------------------------------------------------------------------------- F2L Algorithms: Speedsolving Wiki – F2L Algorithms Absolute F2L – F2L Algorithms Andy Klise’s Collection of 3x3 Algorithms Bob Burton's F2L Algorithms Shotaro Makisumi’s (Macky’s) F2L Algorithms OLL Algorithms: Speedsolving Wiki – OLL Algorithms 2 Look OLL for Corner Orientation are cases 21-27. Andy Klise’s Collection of 3x3 Algorithms Badmephisto's OLL Algorithms Bob Burton's OLL Algorithms 2 Look OLL for Corner Orientation are cases 4-10 Shotaro Makisumi's (Macky's) OLL Aglorithms PLL Algorithms: Speedsolving Wiki – PLL Algorithms Corner Permutation are the Aa/Ab and E/V/Y/Na/Nb permutation algorithms. Edge Permutation are the Ua, Ub, H, and Z permutation algorithms. Andy Klise’s Collection of 3x3 Algorithms Badmephisto's PLL Agorithms Bob Burton's PLL Algorithms Shotaro Makisumi's (Macky's) PLL Algorithms You should print out your OLLs/PLLs so you can learn them and use them at any time. Keep in mind that you should choose the algorithms that best suit you. Just because one person is fast with an algorithm doesn't mean you will be fast with the same algorithm.