Thanks to Jaap for the useful center-turning sequences. The algorithm of the second pic is: d2 F R d F' d' F d F' d' F R' F'. The algorithm of the first pic is: F2 d' F2. You'll have to solve first the edgecenterpieces, then the cornercenterpieces. Now you'll start solving the centerpieces of the second layer.
#5X5X5 CUBE FLIP ALGORITHMS SERIES#
This is because the way that I make move sequences heavily relies on moving both the second and first layers of a side at the same time, and the move sequences would become hard to read and unweildy if I had to keep writing (Rr)-style moves.Įach move sequences is a series of smaller move sequences which do specific things (a setup move for a commutator, a three-cycle, a 3x3x3 pattern, a center turning algorithm, etc.), which you must perform in sequence to get the pattern. Step 8: Centerpieces of the Second Layer. If I've picked up a pattern idea from someone else, I'll provide an author and/or link, but, in most cases, the move sequences are my own (and if they aren't I'll provide an author name for that too).Ī word on my notation: I use F, U, R, B, D, L for turning one outermost layer, and f, u, r, b, d, l for turning two outermost layers (NOT just the second one, but the first as well). Here, there are a bunch of patterns I've developed for the 5x5x5 Rubik's Cube. Algorithm:Uu' R F' U R' UuThis algorithm is one that I stumbled across accidentally and to my astonishment it worked, so I quickly wrote down the algorithm a.
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