Stop putting it off. If you can solve a 3x3, you WILL be able to solve a square-1 with this video. I explain each step as clearly as possible and show you how I memorised it all. Algorithms, summaries and chapter markings below. (Thank you@DerpyCuber for checking and approving this tutorial!)
Use this link to get a 1 month free trial of Skillshare! https://skl.sh/MKR343
Andy Klise's Sq-1 guide http://www.kungfoomanchu.com/guides/a...
SUMMARY OF EACH STEP
📙 Step 1: Get the square-1 into cube shape. "Millennium falcon" ➡️ scallop/scallop ➡️ barrel/barrel ➡️ kite/kite ➡️ cube.
📙 Step 2a: Orient the corners so all the yellow (or black) corners are on top and all the white corners are on the bottom. This can be done intuitively. Just make sure you misalign the top or bottom by 1 when slicing so that you retain cube shape.
📙 Step 2b: Orient the edges so that the top is completely yellow (or black) and the bottom is completely white.
(Optional step: If you can recognise that you will get parity, perform the "mid solve" parity alg here)
📙 Step 3a: Permute the corners so that they're all in the correct positions and only the edges need fixing. There are 6 possible cases here: diag/diag, adj/diag, adj/adj, adj/solve, diag/solved, and fully solved.
📙 Step 3b: Permute the edges using the magical adj/adj edge algorithm! Almost every case can be solved by using this alg several times. 50% of the time, the cube will be solved here! If you still have 2 edges that cannot by solved, perform the super yucky adjacent parity alg. THE END!
ALL ALGORITHMS MENTIONED IN VIDEO
EO swap 1 edge from top to bottom: (0,-1) / (-3,0) / (4,1) / (-4,-1) / (3,0) / (0,1)
M2: (1,0) / (-1,-1) / (0,1)
"Mid solve" parity alg: / (3,3) / (1,0) / (4,-2) / (-4,2) / (-1,0) / (-3,-3)
Swap top and bottom layers: / (6,6) /
CP Diag/diag: / (3,-3) / (-3,3) /
CP Adj/diag: / (3,0) / (-3,0) / (3,0) / (-3,0) (Headlights on left. Do the "3" moves to whichever layer has diag)
CP Adj/adj: / (-3,0) / (3,3) / (0,-3) / (Headlights at the back. Frère Jacques)
CP Adj/solved: / (3,-3) / (3,0) / (-3,0) / (0,3) / (-3,0) / (Headlights at back)
CP Diag/solved: / (3,3) / (3,0) / (3,3) / (3,0) / (3,3) /
The Magical Adj/Adj Edge Algorithm! (1,0) / (0,3) / (-1,-1) / (1,-2) / (-1,0)
M2 EP algorithm: (0,-1) / (1,1) / (-1,0)
Equator flip alg: / (6,0) / (6/0) / (6,0) /
Parity alg (if you have 2 edges at the very end): / (-3,0) / (0,3) / (0,-3) / (0,3) / (2,0) / (0,2) / (-2,0) / (4,0) / (0,-2) / (0,2) / (-1,4) / (0,-3) / (0,3)
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FAVs (Frequently Asked Videos)
🌀 MY RUBIK'S CUBE TUTORIAL • HOW TO SOLVE A RUBIK'S CUBE (& Rememb...
🌀 CUBE COMPETITION VLOGS • Rubik's Cube Competitions Vlogs
🌀 HUGE CUBE UNBOXINGS • Cube Reviews & Unboxings
🌀 FUN FAMILY CUBING VIDEOS • Family Rubik's Cube Videos ❤️
CHAPTERS
0:00 YOU CAN SOLVE THE SQUARE 1!
0:30 Overview of 3 steps
2:23 Step 1- Cube shape
8:28 Skillshare is awesome!
9:32 Step 2a - Orient corners
11:38 How to read Square-1 notation
14:24 Step 2b - Orient edges
17:14 Fixing parity mid-solve
20:28 Step 3a - Permute corners
23:09 CP - Diag/diag
23:53 CP - Adj/diag
24:59 CP - Adj/adj
26:16 CP - Adj/solved
27:22 CP - Diag/solved
28:53 The magical adj/adj edge algorithm!
29:38 Step 3b - Permute edges
31:55 A simple EP M2 case
32:23 How to flip the equator
32:50 THE FINAL PARITY ALGORITHM
35:34 We did it.
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