Tymon Kolasinski tried the belt method during Cyoubx's stream yesterday ("Sub-6's on Stream EZ. Learning Pseudoslotting and CN"). He modified the method slightly - he forced a parity skip during piece separation and rearranged the steps. He also got a 14 and then called a 15 "bad".
So, I have boarded the dummy train and I have tried to optimize this method the best I can with my limited knowledge. First start with ZZ's EO, this way you don't have to deal with the pain of edge parity later. Then solve the belt with moves only. Which is very easy actually. Then separate edges and corners using bars. Make bars by placing an edge between two adjacent corners on the opposite side using M' U2 M. Place the top bar on the left and bottom bar on the right and do R2 U2 R2. If you have an odd amount of edges or corners, solve using bars until your at one corner or one edge on each side that needs to swap. To swap one corner on each side, place one corner on top of the other and do (U R U' R')3. to swap one edge on each side, place one edge on top of the other and do M' U2 M. From there do OLL and PLL, doing corner twist parity as needed, flip over, OLL, PLL, finish!
When I “invented” this method, I actually realized this potential flaw, so I actually would solve the white side, similar to F2L, but only the edges for the belt were in the right spot. This way, I did OLL once on the yellow side (solving mismatch, edge and corner parities) and the would only do PLL on both sides. I still think it’s decently viable but CFOP is just better in every way
Very interesting. Before I ever watched a single tutorial on solving, I intuitively created a belt around the E axis. I still do a solve like this occasionally.
Yeah, though only squan corner algs would work, and you’d have to orient the corners first. Edges work a bit different because of the way it slices on squan.
You may be able to make separating pieces easier if you don’t preserve the belt, but only require those 4 edges stay in the middle. One algorithm at the end could fix it easily or be combined with PLL to make it one step (I think this would triple the number of PLL’s)
This is legitimately the first time I've heard about this for 3x3! I like using this for weird non shapeshifting 3x3xn cuboids and I'd also imagine this could work well for other 3x3xn cuboids where n is an odd integer greater than 3.
Yes, i think we've all tried it. Good practice for OLL/PLL. Cause you have to do it twice. Bad idea when you realize you messed up and have to do much more than you originally planned when even though the pieces are separated, they are still in a configuration that can't be solved without fixing the cube. Really good if you want to do a bunch a u perms.
this is less efficient but it works i guess . 1. make a cross dosent have to be correct but make a cross. 2. orientate corners 3. make belt boom! no oll parity 4. oll 5. pll ,sometimes pll parity just use 4x4 algorithm for pll parity 6. flip 7. oll 8.pll 9.finished
I've been speedcubing 2 years and have actually never thought of the Belt method. I was expecting this to be about the CFOP-Roux Hybrid method that lots of people come up with.
Here's a way I found to do it Build belt (Fix oll parity, F perm or E perm if only corners) Solve both oll Move edges to correct side Commutate the corners loke for 5x5 centers (Fix pll parity, M2 U2 M2) Solve both pll
My variation on this was to build the top, and bottom faces, then the belt. That way, you don't have to worry about piece separation. You can also build the first face and the belt at the same time, since it's sorta like F2L. The major flaw in this method came in the PLLS. Originally, I thought I'd just fix the parity with M2 U2 M2, then (I assumed) I could memorise all the algs to solve both faces at once. That was a no, so I figured I'd ignore parity and just memorise all PLLs, including parity. Still a no go (547 algs. Possible, but probably not worth it). I think the best way would just to do the two faces separately, like you did (I have no idea why I didn't think of that at the time lol). Still pretty garbage due to the move count and the rotation at the end, but better than the version you chose ( I think? I'm working on sub 20, so I'm not exactly experienced in this kind of stuff yet).
I feel like doing EO before the belt could make things more efficient. They maybe you could combine some steps. Something like: 1. EO 2. Belt 3. Separate pieces (edges are easy to recognize when oriented so it might be easier to combine edge and corner separation) 4. Corner parity 5. COLL #1 6. COLL #2 7. Permute edges
Optimized Belt Method: 1) White Cross (doesn't have to be aligned) 2) Belt (leave 1 piece out) 3) White Corners (4th corner paired w/last belt piece) 4) OLL Yellow 5) PLL Yellow (if not real PLL, use M2 U2 M2 to fix it) 6) PLL White (no OLL because step 1 and 3)
I actually solved my old 5x5 for years using a sort of layer by layer method. Do the first 3 layers and then the bottom ring of edges and then the final 4th layer edges. Finally, do the remaining center pieces. It was slow, but can be adjusted to work with any size cube
I remember thinking about a similar way to solve it, and thought it would be good, but for a different reason: 1. Belt 2. OBL (Orientation of Both Layers) 3. Top and bottom face separation (if not color neutral, yellow and white) 4. PBL (Permutation of Both Layer) The goal was to save time in bottom layer and permute everything at the end with only one algorithm, like ortega in 2x2 (which might give better algs than normal PLL for some cases (ex opposite J-Perms (R2 U R2 U' D' R2 D R2)). The problem is that it would need about 400 algs for PBL (no idea for OBL) and I don't think it would even be faster.
I actually got my PB with the belt method by trying it right now for the first time after watching your video haha. I use layer by layer with algs invented by me and my bestie and average around 40 seconds, and the belt gave me a 25 seconds time smashing my old PB by 10 seconds
What about the instead of the cross, you do an X? Corners first, if advanced, do 2nd layer edges, then do 1st layer edges, or do 1st layer edges, then 2nd layer edges, then do last layer however you want?
While you make the belt you can try to do piece/edge separation at the same time to save time, like I think it could be possible to get fast at this method if you blend some of the steps together like the first 2 Edit: If you use Roux like me, you can use on of the triggers M' U2 M to swap edges, I think the Belt method could work with roux solvers
Hi JPerm i have just started watching your videos about 2 weeks ago and your videos have really insiperd me to get a runik's cube myself! I just wanna say thank you for the amazing content you give us
Just suggestion, how about doing "oll" on both top and bottom and use 5x5 center building to complete the faces. Then do E perm if both top and bottom have adj. corner swaps by moving the corners to be swapped from the bottom to the top. Then do EPLL and parity (if any).
Lol, I really thought about this method as well and initially thought the only extra step would be the white/yellow sorting. Luckily while solving 2x2 with Ortegra I noticed that I mostly get invalid OLL cases for the top face when the bottom face is not oriented. So I didn't bother trying "Belt" ;)
There's a WAY better method than CFOP called ZB. You first do F2L up to your last pair but then use an algorithm to orient all of the last layer edges. After that, you use a ZBLL algorithm to solve the rest. If there wasn't as many algorithms, would you recommend this method or is it still not worth learning? Also, why do the few cubers who use this method get slower times than any top speedcubers (like Feliks)? btw amazing content
@@abstractcuber236 I wasn't thinking of actually learning it but I was just curious about why it was slightly slower. But anyway thanks for the explanation : )
For a challenge vid, can you speedsolve with an FMC solution. So basically, you get like 45 minutes or something to come up with a solution for a scramble in CsTimer, then with that solution, you time yourself solving it with the solution you made as fast as you can. PS: Love your vids!
Actually we can make this method more efficient by reducing OLL paritys. Bassicly, when we put wrong for example white edge on the bottom layer, we can determine if it should be white in front or bottom. Same with corners, we can use "edge on place" F2L (only 3 algs, not that much) to insert pieces in correct rotation. Then the only parity left is PLL parity which can be done in 3 moves.
i personally like to make a pll case on the bottom by solving just the side, then i do the belt with no problem, i do the oll and pll at the top, and if there is a parity then i keep moving anyways, i do the pll case at the bottom, and then i solve the parity there (if there is), then i do the top, and it is solved
@@neezduts6933 oh yeah that's actually kinda efficient now that I think about it, you just do a pll on top of belt and flip the cube 180 to do pll on the layer on bottom since the bottom isn't aligned into a cross?
I invented the belt method too, although slightly different. I first made the cross without worrying about orientation, then I paired up the belt edge with any bottom layer corner piece in any orientation and inserted it. Then I dealt with parity and then oll/pll. I then improved it by making the cross with 0, 2 or 4 edges oriented correctly which saved the parity later. It was still bad but the steps of putting in cross pieces first in a good orientation and putting corners on the correct layer when doing the belt pieces makes in immensly better. You don't need to worry about edge flip or corner twist parity with my improved version.
Lmao I also thought I invented something similar🤣. Though my pattern is a bit different since im not a speed cuber and not for the purpose of speedcubing. My pattern is to build a white cross then just put white pieces randomly in that cross. Build the second layer, then third layer, adjust things that needed to adjust then go back to the first layer and do the third layer thing🤣. Its fun making your own formula🤣.
OMG J PERM!! Its been sooooooooooooooo----- long since u uploaded your video, I was waiting for this. The only entertainment on youtube for me is your channel. I have a GAN 356 RS and I want to magnetize it, but its too hard.
I thought of this message where you first solve the corners like 2x2x2 and the solve the edges and then put the centres in place...takes a hell lot of time... especially when compared to CFOP or Belt. But it was worth it
I came up with a method that is the same as belt. 1. white face (no need for correct orientation 2. Belt 3. permute white 5. parity (If needed and there is only on case and can be solved by M2 D2 M2) 6. just do the yellow normally.
I have a possibly sightly better way of doing the method: 1: EO-Belt. (Do edge orientation and the belt) 2: Piece seperation. (to keep EO use only R2, U & D moves. My method is to first have a 1x1x2 block (1 edge and center) of the same colour on top, then insert one 'pair' to make it a 1x2x2 then another 'pair' to make a 1x2x3. Finally you pair up the last two corners and edge then insert to finish separation. (if needed use R2 U2 R2 U2 R2 to flip R2 layer).) 3: OLL on top with one corner ignored. 4: PLL parity. (M2 U2 M2) 5: PLL on top 6: Flip cube, Then use EJLS to twist the last corner and finish OLL at the same time. (If the corner isn't twisted you could use ZBLL to skip step 7) 7: PLL to finish the cube.
As a great man once said “Solutions that are the first thing you think of, and look sensible and are easy to implement. Are often terrible, ineffective solutions that once implemented, will drag on civilization forever”
Huh not me though i have invented 2 methods of my own. Method-1: solve all the edges and then all the corners. Method-2: solve all the corners and then all the edges
Jperm, I have a really weird way of solving the cube, first make the first two blocks in roux, then do cmll, then position the edge pieces that matches the colors of the first two blocks, then solve it with cfop
I also have created a method: the Minus2Y method Step 1: Make a line just as you make the cross on CPOF/Beggibers method, but instead of a cross it is a line or a minus Step 2: Make the 2 blocks next to the line's centers like in the Roux method matching with the center's colour Step 3: OLL and PLL Conclusion: this mixes roux and CPOF (And maybe ZZ?)
Not a bad idea, I'd do it like this: 1) Put all the white pieces (randomly - non-permuted and non-oriented) on the top layer 2) Build the belt 3) Now we should understand if we can fix the eventual parity 4) oll and pll white pieces (top layer) 5) oll and pll yellow pieces (lower layer)
Interesting seque. I taught my niece CFOP a while back. And she struggled with it forever. So I just showed her the belt method. As strange as this sounds, she picked it up like a duck adapts to water and solves with this method almost intuitively.
I Never actually thought of doing this. I thought about doing the First 2 layers differently. CFOP: Make a cross and then put in ALL of the pairs Roux: Make 2 cross edges and the pairs and do the last 2 cross-edges at the end Petrus: Make 2 adjacent cross edges and put in the pair between them and repeat that 3 more times. All of these work. Just they are very strict. So I combined Petrus F2L with Cfop F2l. So I can put in any of the pairs and any of the cross edges in any order. I went from 25avg to a sub21 average. People also say that Petrus is a bad method. I think that it is very good. Unlike Cfop, you don't have to do the crossedges first. But it is also easier to do than Roux Blocks. This is just my opinion and Petrus Helped me To Sub21
I thought I made this up just like everyone else but ended up changing it because of the reason in the video and made a weird corner loop method where you do corner orientation after you make the corner loop then orient the edges. It works more consistently than this belt method
I like the feeling that i used to have when learning to solve a rubiks cube from jperm i felt nostalgia while learnign even though i dont even know jperm at the time
I wonder if you could do it this way: 1. EO + Belt + Corner separation, and the corners at the bottom are all white and are a valid CLL case. To simplify it, make adjacent corner pairs that are either "lizard eyes" (as in the T case), solved or headlights. 2. Edge separation. If the corners aren't solved then make an invalid edge permutation at the bottom and if the corners are solved then make a valid edge permutation on the bottom (U, Z, H perm etc) 3. ZBLL both sides. There should be no parities of any kind This should work but at this point just solve with CFOP or even with ZZ
Ah yes, I remember doing the same thing, but first you make the “belt,” then you put the whites and yellows on the correct sides, then you do obl (orient both layers), then you do pbl (permits both layers) then its solved. I called it “The Giftbox Method” since at one point while solving it, it looks like a giftbox. It was until now that I figured out I was not the only one.
I made a belt method for beginner method. 1. Midldle layer. 2. white cross. 3. yellow cross. 4. yellow edges 5. white and yellow corner seperation. 6. permutate first layer 7. permutate last layer 8. orient first layer 9. orient last layer 10. orientation parity
I've have never thought of this.... maybe I'm stupid. Also is 28 seconds and an average of 38 after 3 and a half weeks since first learning to cube a good time. If so, then J Perm is even more awesome at cubing and teaching than I thought he was, because he is the only I have watched.
Step 1: solve the belt(7 or less moves max) step 2. Orient all the edges(max of like 10 moves) step 3: solve the f2l pairs(rotationless) step 4: solve the 4 cross edges(rotationless) step 5:ZBLL(or last layer)
When you realise everyone has but you have never thought of the belt method
Here is my bro
Totally relatable
Cubefinity same. Although I have seen it on the speedsolving wiki
@@goldenwarrior1186 r u srs
I actually thought of this method and already knew the problems I was going to have...the parities...hence I never tried it.
RedRobbie7 Yes
Tymon Kolasinski tried the belt method during Cyoubx's stream yesterday ("Sub-6's on Stream EZ. Learning Pseudoslotting and CN"). He modified the method slightly - he forced a parity skip during piece separation and rearranged the steps. He also got a 14 and then called a 15 "bad".
Tymon is the type of guy that would get 15 seconds on belt method
Advanced method:
Step 1: white/ yellow manipulation ( on correct sides, no parites )
Step 2: belt
Step 3: OBL (Orient both layers)
Step 4: PBL ( Permute Both Layers)
this is not a square 1
WBOP
nice name
ortega moment
WYBOP
this is square 1 but for 3x3 lol
So, I have boarded the dummy train and I have tried to optimize this method the best I can with my limited knowledge.
First start with ZZ's EO, this way you don't have to deal with the pain of edge parity later.
Then solve the belt with moves only. Which is very easy actually.
Then separate edges and corners using bars. Make bars by placing an edge between two adjacent corners on the opposite side using M' U2 M. Place the top bar on the left and bottom bar on the right and do R2 U2 R2. If you have an odd amount of edges or corners, solve using bars until your at one corner or one edge on each side that needs to swap. To swap one corner on each side, place one corner on top of the other and do (U R U' R')3. to swap one edge on each side, place one edge on top of the other and do M' U2 M.
From there do OLL and PLL, doing corner twist parity as needed, flip over, OLL, PLL, finish!
When I “invented” this method, I actually realized this potential flaw, so I actually would solve the white side, similar to F2L, but only the edges for the belt were in the right spot. This way, I did OLL once on the yellow side (solving mismatch, edge and corner parities) and the would only do PLL on both sides. I still think it’s decently viable but CFOP is just better in every way
5:41 "+2s don't count at home" - Kevin Hays
Kevin Hays ❌
Everyone Says ✅
Oh god yes this is just nostalgic and hours of trying to perfect this
Yeah my parents would always use this method on me
Its so nostalgic
@@xcalivrr3982 exactly
@@xcalivrr3982 u won
Very interesting. Before I ever watched a single tutorial on solving, I intuitively created a belt around the E axis. I still do a solve like this occasionally.
I feel like this would be the method you’d teach someone who for some reason knows how to solve a square one but not a normal cube
Yeah, though only squan corner algs would work, and you’d have to orient the corners first. Edges work a bit different because of the way it slices on squan.
Try Shadowslice Snow Columns. It solves the E slice and corner orientation at the same time, then solves corners with Square 1 algs.
Keyhole method is fire for noobs🔥
I learned how to solve the ghost cube before the 3x3 lol
yes
You may be able to make separating pieces easier if you don’t preserve the belt, but only require those 4 edges stay in the middle. One algorithm at the end could fix it easily or be combined with PLL to make it one step (I think this would triple the number of PLL’s)
Stupid cubing method: *Exists*
JPerm: Its free real estate
*its free real estate*
.
such an original comment....
@@pk251 lol i know
@@pk251 well I mean at least it isn't so overused, not like those annoying "nobody:" or "20 likes 0 views" comments
If I'm not mistaken, this is like solving a 3x3 as a square-1. Square-1 uses this method.
This is legitimately the first time I've heard about this for 3x3! I like using this for weird non shapeshifting 3x3xn cuboids and I'd also imagine this could work well for other 3x3xn cuboids where n is an odd integer greater than 3.
Yes, i think we've all tried it. Good practice for OLL/PLL. Cause you have to do it twice.
Bad idea when you realize you messed up and have to do much more than you originally planned when even though the pieces are separated, they are still in a configuration that can't be solved without fixing the cube. Really good if you want to do a bunch a u perms.
This is the Exact Method my Mom uses to Beat me.
Lmfaoo
😂
I had made a method by myself I do f2l first and then cross and oll pll
@@ninjasparkzz5097 i Dont know this method, i only know cfop (jk)
Rip
this is less efficient but it works i guess . 1. make a cross dosent have to be correct but make a cross. 2. orientate corners
3. make belt boom! no oll parity 4. oll 5. pll ,sometimes pll parity just use 4x4 algorithm for pll parity 6. flip 7. oll 8.pll 9.finished
Nobody:
J perm: solves cube faster then me with the belt method
@Your Mom same
Than* and same
Not me i average 30 seconds feels good to know im not the slowest cuber ever
@@jaydonturner2367 and he averaged around 20.
LOL
I've been speedcubing 2 years and have actually never thought of the Belt method. I was expecting this to be about the CFOP-Roux Hybrid method that lots of people come up with.
Meanwhile , in an alternative universe: uses belt method to set wr
I mean, if SSC counts as belt method, it might be viable.
When He's FASTER Than You With BELT METHOD
1 month later: how do get sub 10 with the belt method
Underrated
No, more like how to get sub 0.000001 with belt method
Sub 10 half a MINUTE
Was bout to write this
@@hvrst6241 How to get WR with belt
Jperm: every speedcuber invented the belt method
Me: *Laughs in beginner*
I never once thought of trying to solve a cube this way.
Same
me2
Me 🌳
same
Yeah who would?
Here's a way I found to do it
Build belt
(Fix oll parity, F perm or E perm if only corners)
Solve both oll
Move edges to correct side
Commutate the corners loke for 5x5 centers
(Fix pll parity, M2 U2 M2)
Solve both pll
When Dylan’s belt method pb is better than my regular pb😂
More, or better?
Yup
same
My pb is 17
My pb is 19
My pb is 24 he beat me by 8 seconds
i thought advanced cross was tough, but after trying to solve the belt a few times, i realized how much easier the cross was
My variation on this was to build the top, and bottom faces, then the belt. That way, you don't have to worry about piece separation. You can also build the first face and the belt at the same time, since it's sorta like F2L.
The major flaw in this method came in the PLLS. Originally, I thought I'd just fix the parity with M2 U2 M2, then (I assumed) I could memorise all the algs to solve both faces at once. That was a no, so I figured I'd ignore parity and just memorise all PLLs, including parity. Still a no go (547 algs. Possible, but probably not worth it). I think the best way would just to do the two faces separately, like you did (I have no idea why I didn't think of that at the time lol).
Still pretty garbage due to the move count and the rotation at the end, but better than the version you chose ( I think? I'm working on sub 20, so I'm not exactly experienced in this kind of stuff yet).
1:eo line 2: belt 3 OYE orient yellow/white edge 4: EFP edge flip parity 5: OWE orient white/ yellow corner 6 OLL 7 PLL
"back in the day of the speedsolving forums"
The forums still exist and people like me are very active on it.
oh my god are you itsowen? what's up dude i'm pussyslayer68 i just got 1k posts
I am also a very active member of the forums, but I don’t think that Owen will figure it out before he overtakes Cuberstache in mega 🤪
@@a1b3a3c14nbcv no, I am Owen Morrison on the forums.
@@fatherfilth3784 haha😆. Who are you on the forums?
That’s for you to figure out
I feel like doing EO before the belt could make things more efficient. They maybe you could combine some steps. Something like:
1. EO
2. Belt
3. Separate pieces (edges are easy to recognize when oriented so it might be easier to combine edge and corner separation)
4. Corner parity
5. COLL #1
6. COLL #2
7. Permute edges
TITLE: The Speedcubing Method We All Invented...
Me seeing the video: I have never seen or thought of that method in my life
Optimized Belt Method:
1) White Cross (doesn't have to be aligned)
2) Belt (leave 1 piece out)
3) White Corners (4th corner paired w/last belt piece)
4) OLL Yellow
5) PLL Yellow (if not real PLL, use M2 U2 M2 to fix it)
6) PLL White (no OLL because step 1 and 3)
Imma try this
This actually sounds really obscure? I'm surprised that this many cubers thought of doing it.
I actually solved my old 5x5 for years using a sort of layer by layer method. Do the first 3 layers and then the bottom ring of edges and then the final 4th layer edges. Finally, do the remaining center pieces. It was slow, but can be adjusted to work with any size cube
I remember thinking about a similar way to solve it, and thought it would be good, but for a different reason:
1. Belt
2. OBL (Orientation of Both Layers)
3. Top and bottom face separation (if not color neutral, yellow and white)
4. PBL (Permutation of Both Layer)
The goal was to save time in bottom layer and permute everything at the end with only one algorithm, like ortega in 2x2 (which might give better algs than normal PLL for some cases (ex opposite J-Perms (R2 U R2 U' D' R2 D R2)). The problem is that it would need about 400 algs for PBL (no idea for OBL) and I don't think it would even be faster.
3249 for OBL, 441 for PBL
1st OLL algs would be a lot easier because the bottom pieces dont matter.
I actually got my PB with the belt method by trying it right now for the first time after watching your video haha. I use layer by layer with algs invented by me and my bestie and average around 40 seconds, and the belt gave me a 25 seconds time smashing my old PB by 10 seconds
finally a method where j perm's times are slower than my normal solves lmao
What about the instead of the cross, you do an X? Corners first, if advanced, do 2nd layer edges, then do 1st layer edges, or do 1st layer edges, then 2nd layer edges, then do last layer however you want?
I have a feeling this involves the Middle Layers a lot.
pp
@@rexyaxy4314 stop spamming
Equator layers
@@cubebutpro298Slice moves (M, E, and S)
I never had such a problem with CFOP that I needed to "invent" a method it was difficult but I learned
I literally invented this a week ago. J perm is spying on me
While you make the belt you can try to do piece/edge separation at the same time to save time, like I think it could be possible to get fast at this method if you blend some of the steps together like the first 2 Edit: If you use Roux like me, you can use on of the triggers M' U2 M to swap edges, I think the Belt method could work with roux solvers
When he solves faster with belt than you do normally
He's right, at first I was like "yknow, that actually sounds like a good, fast method"
then i was like "oh"
Jperm: gets low 20s using the belt method
Me: gets low 30s using intermediate cfop
Me again: quits cubing
dont give up really
Forgive me for asking but what's intermediate CFOP?? I know what beginning and advanced are but what do you mean by intermediate?
Siri M he means he’s not advanced but he’s not beginner
Siri M difficulty easy=beginners medium=intermediate hard=advanced
Mekenzie Brown that is so me
"Turns out, during inspection, I have a tough time planning the belt"
that hit so hard
4:31 Finally faster than J Perm
Mehta: *exists*
Dylan: "Aaaargh..."
Some guy: Who exactly invented the Belt method?
Me: *It's hard to say who exactly...*
Hi JPerm i have just started watching your videos about 2 weeks ago and your videos have really insiperd me to get a runik's cube myself! I just wanna say thank you for the amazing content you give us
Update?
I just realized he solves faster than me in the Belt method than I can in Cfop LOL.
(This is what I get for taking a 2 year break from cubing 🤦♂️)
same
same I took a break for like a year
Jokes on you I got a 7 year break
@@wernerziegler2873 I haven't even cubed even before this comment but sheesh
Just suggestion, how about doing "oll" on both top and bottom and use 5x5 center building to complete the faces. Then do E perm if both top and bottom have adj. corner swaps by moving the corners to be swapped from the bottom to the top. Then do EPLL and parity (if any).
Lol, I really thought about this method as well and initially thought the only extra step would be the white/yellow sorting. Luckily while solving 2x2 with Ortegra I noticed that I mostly get invalid OLL cases for the top face when the bottom face is not oriented. So I didn't bother trying "Belt" ;)
BLBL (Belt Layer by layer)
1. Make the belt (obviously)
2.fix parity (by repurposing algs)
3.swap corner
4.layer by layer oll and pll
There's a WAY better method than CFOP called ZB. You first do F2L up to your last pair but then use an algorithm
to orient all of the last layer edges. After that, you use a ZBLL algorithm to solve the rest. If there wasn't as many
algorithms, would you recommend this method or is it still not worth learning? Also, why do the few cubers who use
this method get slower times than any top speedcubers (like Feliks)?
btw amazing content
Same
k
@@abstractcuber236 I wasn't thinking of actually learning it but I was just curious about why it was slightly slower. But anyway thanks for the explanation : )
jperm: everybody came up with this idea
Me:never heard of it, never came up with it and heard of it when watching jperm
How many of you keep touching your cubes in during online classes?
Me
For a challenge vid, can you speedsolve with an FMC solution. So basically, you get like 45 minutes or something to come up with a solution for a scramble in CsTimer, then with that solution, you time yourself solving it with the solution you made as fast as you can.
PS: Love your vids!
Actually we can make this method more efficient by reducing OLL paritys. Bassicly, when we put wrong for example white edge on the bottom layer, we can determine if it should be white in front or bottom. Same with corners, we can use "edge on place" F2L (only 3 algs, not that much) to insert pieces in correct rotation. Then the only parity left is PLL parity which can be done in 3 moves.
i personally like to make a pll case on the bottom by solving just the side, then i do the belt with no problem, i do the oll and pll at the top, and if there is a parity then i keep moving anyways, i do the pll case at the bottom, and then i solve the parity there (if there is), then i do the top, and it is solved
@@neezduts6933 how do u not break the side when doing belt?
@@floseatyard8063 i do f2l pretty much
@@neezduts6933 oh yeah that's actually kinda efficient now that I think about it, you just do a pll on top of belt and flip the cube 180 to do pll on the layer on bottom since the bottom isn't aligned into a cross?
I invented the belt method too, although slightly different. I first made the cross without worrying about orientation, then I paired up the belt edge with any bottom layer corner piece in any orientation and inserted it. Then I dealt with parity and then oll/pll. I then improved it by making the cross with 0, 2 or 4 edges oriented correctly which saved the parity later. It was still bad but the steps of putting in cross pieces first in a good orientation and putting corners on the correct layer when doing the belt pieces makes in immensly better. You don't need to worry about edge flip or corner twist parity with my improved version.
I watch your videos u are so cool make more
@@door3545 thanks. My life circumstances are not conducive to making videos now. I don't have the time.
Lmao I also thought I invented something similar🤣. Though my pattern is a bit different since im not a speed cuber and not for the purpose of speedcubing.
My pattern is to build a white cross then just put white pieces randomly in that cross. Build the second layer, then third layer, adjust things that needed to adjust then go back to the first layer and do the third layer thing🤣.
Its fun making your own formula🤣.
very fun method
OMG J PERM!! Its been sooooooooooooooo----- long since u uploaded your video, I was waiting for this. The only entertainment on
youtube for me is your channel. I have a GAN 356 RS and I want to magnetize it, but its too hard.
Can you solve a 3x3... Like a square-1?
POV:you never thought of the belt method
J-perm: here's a method we all invented
Me who used roux and has no idea how to do oll and pll: no
I thought of this message where you first solve the corners like 2x2x2 and the solve the edges and then put the centres in place...takes a hell lot of time... especially when compared to CFOP or Belt. But it was worth it
51 secs ago!
Last time I was this early, I was allowed to leave the house !
Just solve 1 side (not a layer) then the belt and then oll and pll, turn the cube upside down then oll and pll again
Am I the only one who never thought of this method?
I came up with a method that is the same as belt. 1. white face (no need for correct orientation 2. Belt 3. permute white 5. parity (If needed and there is only on case and can be solved by M2 D2 M2) 6. just do the yellow normally.
lmao I remember "inventing" this when I was first getting into speedcubing
I have a possibly sightly better way of doing the method:
1: EO-Belt. (Do edge orientation and the belt)
2: Piece seperation. (to keep EO use only R2, U & D moves. My method is to first have a 1x1x2 block (1 edge and center) of the same colour on top, then insert one 'pair' to make it a 1x2x2 then another 'pair' to make a 1x2x3. Finally you pair up the last two corners and edge then insert to finish separation. (if needed use R2 U2 R2 U2 R2 to flip R2 layer).)
3: OLL on top with one corner ignored.
4: PLL parity. (M2 U2 M2)
5: PLL on top
6: Flip cube, Then use EJLS to twist the last corner and finish OLL at the same time. (If the corner isn't twisted you could use ZBLL to skip step 7)
7: PLL to finish the cube.
4:30 that is literally my Pb on 3x3
As a great man once said “Solutions that are the first thing you think of, and look sensible and are easy to implement.
Are often terrible, ineffective solutions that once implemented, will drag on civilization forever”
Huh not me though i have invented 2 methods of my own.
Method-1: solve all the edges and then all the corners.
Method-2: solve all the corners and then all the edges
isnt thats just a method for bllindfolded?
It is used a few times for blindfold and also blindfold 1hand
@@YesHelloHi nah its just a method of my own and it is not a blindfold method
@@voidman6419 congrats youve literally copied ZLL OH Blind. lol/
Jperm, I have a really weird way of solving the cube, first make the first two blocks in roux, then do cmll, then position the edge pieces that matches the colors of the first two blocks, then solve it with cfop
Couldn't you just do this in Reverse basically were instead you solve the top and bottom layer simultaneously and then put in the belt afterwards?
Roux moment
I also have created a method: the Minus2Y method
Step 1: Make a line just as you make the cross on CPOF/Beggibers method, but instead of a cross it is a line or a minus
Step 2: Make the 2 blocks next to the line's centers like in the Roux method matching with the center's colour
Step 3: OLL and PLL
Conclusion: this mixes roux and CPOF (And maybe ZZ?)
I actually did not invent this. F2L is really easy and intuitive.
Lucky
Not a bad idea, I'd do it like this:
1) Put all the white pieces (randomly - non-permuted and non-oriented) on the top layer
2) Build the belt
3) Now we should understand if we can fix the eventual parity
4) oll and pll white pieces (top layer)
5) oll and pll yellow pieces (lower layer)
3:19 it’s just like communism
I was literally about to type this!!! 😮
@@WTF-Cubing lol
Interesting seque. I taught my niece CFOP a while back. And she struggled with it forever. So I just showed her the belt method. As strange as this sounds, she picked it up like a duck adapts to water and solves with this method almost intuitively.
3:04 What loser made a post called "Cat Solves Rubik's Cube In Three Seconds!"
...
...
...
...
...
...
...
wait a minute
I wanna see it now
Jo_ovin I’m not so sure that you do.
Lmaoo
ohh its u
Yes
I Never actually thought of doing this. I thought about doing the First 2 layers differently.
CFOP: Make a cross and then put in ALL of the pairs
Roux: Make 2 cross edges and the pairs and do the last 2 cross-edges at the end
Petrus: Make 2 adjacent cross edges and put in the pair between them and repeat that 3 more times.
All of these work. Just they are very strict. So I combined Petrus F2L with Cfop F2l. So I can put in any of the pairs and any of the cross edges in any order. I went from 25avg to a sub21 average.
People also say that Petrus is a bad method. I think that it is very good. Unlike Cfop, you don't have to do the crossedges first. But it is also easier to do than Roux Blocks. This is just my opinion and Petrus Helped me To Sub21
Thanks @J Perm for this method! It's really fun to play with this method lol
Can you make more videos on this method I am liking it
4×4×4 cube
1. 6 centers
2. belt
3. separate pieces
4. edge flip parity
5. corner rotation
6. OLL(T)
7. PLL parity
8. PLL(T)
9. OLL(B)
10. PLL(B)
Finally!!! JPerm using belt is slower than me using CFOP...
I thought I made this up just like everyone else but ended up changing it because of the reason in the video and made a weird corner loop method where you do corner orientation after you make the corner loop then orient the edges. It works more consistently than this belt method
I like the feeling that i used to have when learning to solve a rubiks cube from jperm i felt nostalgia while learnign even though i dont even know jperm at the time
I wonder if you could do it this way:
1. EO + Belt + Corner separation, and the corners at the bottom are all white and are a valid CLL case. To simplify it, make adjacent corner pairs that are either "lizard eyes" (as in the T case), solved or headlights.
2. Edge separation. If the corners aren't solved then make an invalid edge permutation at the bottom and if the corners are solved then make a valid edge permutation on the bottom (U, Z, H perm etc)
3. ZBLL both sides. There should be no parities of any kind
This should work but at this point just solve with CFOP or even with ZZ
Ah yes, I remember doing the same thing, but first you make the “belt,” then you put the whites and yellows on the correct sides, then you do obl (orient both layers), then you do pbl (permits both layers) then its solved. I called it “The Giftbox Method” since at one point while solving it, it looks like a giftbox. It was until now that I figured out I was not the only one.
When you realise the only method you thought of is colour by colour
I never thought of it and as soon as you demonstrated it with a working scramble I saw all of the problems...
I made a belt method for beginner method.
1. Midldle layer.
2. white cross.
3. yellow cross.
4. yellow edges
5. white and yellow corner seperation.
6. permutate first layer
7. permutate last layer
8. orient first layer
9. orient last layer
10. orientation parity
Of course solving a 3x3 with SQ1 methods is way better than solving a 3x3 with 3x3 methods
WUT YOU ARE A GINEUS you figured out a new way to solve the rubik’s cube omggg
I've have never thought of this.... maybe I'm stupid. Also is 28 seconds and an average of 38 after 3 and a half weeks since first learning to cube a good time. If so, then J Perm is even more awesome at cubing and teaching than I thought he was, because he is the only I have watched.
Step 1: solve the belt(7 or less moves max) step 2. Orient all the edges(max of like 10 moves) step 3: solve the f2l pairs(rotationless) step 4: solve the 4 cross edges(rotationless) step 5:ZBLL(or last layer)
This guy is making a simple cube into a completely worldwide thing.