(Use commutators to avoid long memorization.) 4‑Dots on each face (2×2 blocks of center pieces swapped) Algorithm: 3R2 3U2 3R2 3U2 3R2 3F2 3R2 3F2 3U2 3F2 3U2 3F2
(Full 40‑move sequence available upon request – this draft keeps core logic concise.) | Pattern | Key moves (simplified) | |-----------------------|----------------------------------------| | Checkerboard | U2 D2 F2 B2 L2 R2 | | Rings (centers) | 3R2 U2 3R2 U2 3R2 + rotations | | Cube‑in‑a‑cube | 3‑cycle inner edges + 3×3 pattern | | Dots (center blocks) | 3R2 3U2 3R2 3U2 etc. | | Superflip | M' U M' U M' U2 M U M U M U2 (on each slice) | End of draft. rubik cube 5x5 pattern algorithms pdf
Better yet – for 5×5 Anaconda:
M' U M' U M' U2 M U M U M U2 repeated on all slice planes. (Use commutators to avoid long memorization
F B' U D' R L' F B' then rotate whole cube 90° around y‑axis and repeat. F B' U D' R L' F B'
[r, U2] where r = 3R R (right two layers). Careful – this also moves corners.
[3R, U2] = 3R U2 3R' U2