Planning to do a tutorial on Pyraminx, 3x3x2, and 2x2x3. That sound good to you guys? I could also do X-Cube, Mixup Cube, or Cubic 3x3x5 if you guys are interested-let me know!
Can you do 6x6x6, Mirror Cube, and Ghost Cube please, and I think that you are going a little to fast in saying the algorithms, so I think slowing down is better.
5:15 beginning and 8:11 end of the red cases/ center cases/ 12:25 edges/ 13:05(Rprime, U, Fprime)/ 13:28 front face(skip 14:51)/ 16:05(Rprime, U, Fprime)/ 18:01 last 2 edges (i had such a hard time here)/ go watch how to do a 3 by 3 Rubix or do it on your own if you know how to/ by now you just need to do it like a 3 by 3 and your done/ Extra help 18:20 Parities
I just got myself a 4x4 cube to get myself productive during quarantine. Don't have any background on playing rubik's cube I have watched many tutorials on 4x4 and dang, yours is the EASIEST and definitely, simplest way to learn. Imma go back in a few days to give an upd8
white center 1:12 yellow center 3:00 red center case 1 5:20 red center case 2 5:30 red center 3 6:11 red center 4 6:34 red center 5 7:00 red center 6 7:27 blue center 8:16 orange center 1 10:13 orange center 2 10:32 orange center 3 10:48 orange center 4 11:07 orange center 5 11:44 orange center 6 11:49
There are a few inconsistencies with some of your algorithms. You have a brilliant mind and your understanding of the concept is truly breath taking. I wanted to correct the inconsistencies to help not only you; but your amazing fans as well. Last four middle pieces on adjacent slices would be: (Lw U2)*2 F2 Lw F2 Rw U2 Rw'2 U2 Lw2 In this algorithm the only Prime is Rw'2. The yellow side can be solved completely using the 3*3 method whether there are parities or not. The parities create the illusion of something more complicated than it really is. You have a brilliant mind that sometimes over thinks a simple process. People like us usually do over think things. I have some simple algorithms that would make the 4*4 easier to solve with less moves.
Charli Draeger Thanks for the kind words! My algorithm works fine. If you watch at 18:00, you’ll see that it was performed, spoken, and notated correctly, and that it did exactly what I wanted it to do. I don’t have my 4x4 here so I’m going to guess that your algorithm is just an alternate. If there‘s an OLL parity, you cannot solve the yellow face using 3x3, assuming you’ve done the previous steps correctly.
Friend was saying do a 5x5 first, but this wasn't bad. Got it on my first try using this video. Avoided parity as well and was surprised when the edges solved. I guess I'm 'good to go'. ;)
good tutorial, one thing that could be improved is re-showing the algorithms once a case takes you to another. Its just annoying to have to rewind a bit to find out what to do then go back to where i originally was. :D
I watched a bunch of other tutorials but this one is the only one I could actually understand, if I get any other cubes I will definitely watch your channel :)
At 19:00 for OLL parity have a point on back face turn. Algorithm says B2, but actually from back face point of view, it seems to be counter clock turn, shouldn't it be B'2 ??
Ya because he wrote a wrong algorithm for it.. and even said it out loud wrong but did a different sequence.. the correct formula /algorithm is : Lw' U2 Lw' U2 F2 Lw' F2 Rw' U2 Rw U2 Lw' 2
1:03: Centers 2:44: Yellow center 3:02: The Spin algorithm 5:05: Red center 5:18: Two-bar case 5:28: Dot case 6:08: Diagonals case 6:30: One-bar case 6:46: Polar case 7:25: Scatter case 8:11: Blue center 9:08: Two-bar case 9:24: Blue center built in the wrong spot 10:01: Green and orange centers 10:10: Two-bar case 10:29: Dot case 10:24: One-bar case 11:04: Anti-dot case 11:36: Diagonals case 11:46: Switched centers 12:21: Edges 13:05: Move edge piece to adjacent slice 13:15: Setting up to build 13:44: Searching for broken edges 14:52: Building an edge to the right 15:15: Building an edge to the left 15:54: Edge-building examples 17:20: Last two edges 18:00: Build last two edges 18:19: Parities 18:28: OLL parity 19:22: PLL parity 20:57: ??? Want easy access to all the BEST algorithms for solving? I’ve got a list that I’ve been building for years that contains all the algorithms for: -3x3x3 last layer (2-look and 4-look) -Every F2L case -3x3x2 last layer -Megaminx last layer -X-Cube -Mixup Cube -Blind-solving -Parity/conversion for large cubes
Thank you for the video especially showing the algorithm to fix the PLL parity for 2 corners on the last layer @ 19:59. Switching these 2 corners has always been a challenge for me. This video will allow me to solve 4x4 6x6 8x8 etc.
Hey dude, thank you so much for this video! I was able to use many of the 3 by 3 tricks that I know, minus the edges. Your great tutorial was very easy to follow and I did this cube again for the first time in 30 years. Many thanks!
@@ChrisBandyJazz Thanks man. I still have to memorize the parity algorithm and the one for the last two edge pieces. But it's fun to be able to do it again.
@@ChrisBandyJazz Well I still have to work on parities lol. But with practice and this video, I can do it. There was a problem where opposite edges (middle 2 pieces) were swapped with each other on top. Obviously that can't happen on a normal cube. I'll get it eventually! (edit. I fixed it with PLL parity sequence!)