I actually know the solution to the -1x-1! The first step is to multiply -1x-1, which equals 1. So you must go to the first dimension and imagine you are in there. You should see a 1x1 infront of you. You might think you solve it like a regular 1x1 but you actually dont. You solve it a little bit diffrently instead of solving it normally in the real world. The algorithms for the 1x1 are in reverse. There are also a couple of parities you do diffrently in the 1st dimension also. If you get parity on the -1x-1, use one of the following algorithms to solve the parity. Case 1. 🔳 🟥 Solution: R, B, D', L', F Case 2. ⏹ 🟦 Solution: U, D, F', B, R2 Case 3:⬜ 🟧 Solution: U, L, D', R2, U2
This tutorial is actually outdated. It was recently discovered by physicists at MIT that it's actually impossible to solve a 1x1 cube, as it is impossible to scramble in the first place. The only way you can truly solve a 1x1 is by peeling off the stickers and doing corner twists
Are you guys liking the joke videos recently?
Lol liking ur own comment ehehehe
hearting ur own comment ehehehej
I think so idk cuz I don’t watch ur videos but I do troll on ur videos
@@ZXQueen-tu4ch u liked ur own comment
yes yes
They are not hard but just time consuming for example the mf8 3-Layer Rhombic dodecahedron cube Crazy DodeRhombus is one of the hardest puzzle
Omg you are so right
and maybe puppet cube 1
I actually know the solution to the -1x-1! The first step is to multiply -1x-1, which equals 1. So you must go to the first dimension and imagine you are in there. You should see a 1x1 infront of you. You might think you solve it like a regular 1x1 but you actually dont. You solve it a little bit diffrently instead of solving it normally in the real world. The algorithms for the 1x1 are in reverse. There are also a couple of parities you do diffrently in the 1st dimension also. If you get parity on the -1x-1, use one of the following algorithms to solve the parity.
Case 1. 🔳
🟥
Solution: R, B, D', L', F
Case 2. ⏹
🟦
Solution: U, D, F', B, R2
Case 3:⬜
🟧
Solution: U, L, D', R2, U2
This tutorial is actually outdated. It was recently discovered by physicists at MIT that it's actually impossible to solve a 1x1 cube, as it is impossible to scramble in the first place. The only way you can truly solve a 1x1 is by peeling off the stickers and doing corner twists
... I am still comfused
@@lord0fthecubes I also hold the solution to the 1x1...
@@ThaoNguyen-ig1ohsay it😮
Have anyone tryed -100×_100
10000x10000
I dont think there is any photos of that