Sticking Bricks At 45° This LEGO Trick Will Blow Your Mind!

Crazy how those transparent bricks have been in production since 1956 and are still being made today. This techniques been possible for 68 years

Very cool! You asked what would happen if you extended the pattern of 1x1 bricks and 2x2 jumpers. Turns out, there is NO repeating pattern that will work forever. Eventually, one of the base studs would hit the edge of a 1x2 brick. The reason is simple... sqrt(2) is irrational! You could continue this method forever, swapping between 1x1 and 2x2 bricks when you need to, there just wouldn't be a repeating pattern.

I literally laughed out loud as soon as you brought out the transparent bricks and said “oh my gosh, it was RIGHT THERE the whole time!” Brilliant! 👏👏👏

LEGO used this technique in the Ninjago City Gardens right behind the roller coaster rail. This was my first experience with this absolulty fantastic technique.
Nice Video 😊

With a tolerance of 0.1% of a stud, A 576-stud wall will connect at 45 degrees to a 408 x 408 plate. If you want 0.01% stud tolerance, you can connect a 8,119-stud wall at 45 degrees to a 5,741 x 5,741 plate.

a long time ago, LEGO made 1x8 bricks without the tubes that get in the way, i found some on craigslist a couple years back and just now realized how useful they are THANK YOU FOR INSPIRING ME

As soon as you brought out the 1x2 bricks, I knew where this was going. Finally, my PAB Wall horde of 1x2 Trans Red Bricks is useful for something!

To achieve a 45 degree angle, you can also use a 135 degree technic connector.

game changing! and you technically only need the outermost 2 transparent 1x2s because the rest of them don't do much more than add clutch power

As another Lego UA-camr likes to say... Mind blown!
I never saw this coming.

Every video you come up with builds on another and they're all absolutely bangers! Love this solution!

"don't like math" sir this _is_ math! And you're good at it! Crunching numbers real hard is not all there is to math!

1:41 I can guarantee that the pattern won't be repeating... ever!
If there was a periodic pattern, this would mean √2 could be written as a fraction p/q, which would make it rational.

I am learning so much from your channel. As a toy photographer i'm always trying to elevate my LEGO MOCs because they're literally my backgrounds!! Thank you so much for not keeping this information to yourself, this stuff is so unbelievably awesome

It's 3am watching this. I had no clue where you were going with that plate structure, and when you threw down the transparent bricks without center posts in the bottom I literally shouted "OH MY GOD!" Nice job~!

That's sick! I've never seen this technique before, thanks for sharing!

I have some really old 1x6 and 1x8 bricks that are hollow on the bottom too. And they're not all transparent yellow either! Some are classic grey.

I forgot that those transparent bricks are totally hollow inside. Good catch! This is an elegant solution.

This has gotta be the best solution. So simple, so elegant, just perfect

"how do we bypass irrational numbers"
"By using bricks which have an infinite number of sliding degrees of freedom ofcourse"
And with that you opened up lego from the Natural and Rational number lines up to a subsection of the Real number line

So cool! Unfortunately, you can't make any parallel or perpendicular 45 degree lines behind this one to stabalize, so your build will only be based on a single line. But I think we can save thsi with the principles of the super sugar grid! Repeat the grid of plates seen at 2:58 in one direction, packed tight; then place clear blue bricks along the parallel 45 degree lines. However, don't pack these tight, since they'll need to be adjusted side-to-side to make up for the square root of two. Then, Make a second grid of clear blue bricks on top of those, at a right angle to the first. The lower layer of bricks will need to be adjusted along their lines to offset the upper layer, so that the upper layer of lines form a rational grid. Then the top layer can be secured with baseplates, and I think this way you can make a full 45 degree baseplate with a high number of attachment points. The grid of studs may need to be altered from 2:58 actually, but I think the super sugar grid principle will work here too! I don't have the bricks to try it, but if it works I hope to see it here!

I wrote this as a reply comment, but I wanted to make sure that I could share the idea with others.
If you put the studs in an X, building the foundation from the center of the X outwards, you'll have four lines where you can connect your structure to the ground, instead of only one side of your structure.

Damn i'm hoping to see builders utilize this technique. It's relatively low profile, very simple, very clean. Fantastic work!

Oh damn, how did I forget. I only recently build the Ninjago Gardens set and that one uses pretty much that technique for the the front wall of the yellow building at the top.

first time seeing this. mind blown. life changed forever. instant sub.

Holy Brick! That is the coolest technique I’ve ever seen in LEGO. I already have an idea for my next build.

This series of videos has been a wild ride.

actually a game breaking discovery, so glad i found this channel

I think ninjago city gardens used the transparent brick to build in a 45 degree angle

Just thought about this, but the pieces lego uses for sliding doors, those grey rails, they could fit on a system like this, with some (either round, or aligned to the 45° 1×1's) and even slide across it, for whatever reason you want!
Maybe you want easy removal of a building, now it can be barely even connected, just basically sitting there, at a specific angle.

Absolutely amazing, and even better that you share it with the the world!
Keep up the great work you do, sir!

The pattern does not repeat, but just follow this simple rule for adding more and more length: if you use a 1x1 single stud tile and the previous brick interferes, use a 2x2 single stud tile instead. if you use a 2x2 single stud tile and there is still interference, use a no-stud 1x1 tile to make more room, and use a 1x1 single stud after. This method also works with ingot tiles and 2x1 tiles.

Actually, the brick without the inner tube was the original mold in the 60s, and they came in white, blue, black and red, and if you are lucky you can get a load of them cheap (got a bunch of these in red for 5c a piece on BL) so you can even avoid the double stud facade.
Great work figuring out a clean basis. Thanks!

The knight who slayed the root two beast!

Super awesome building technique.

That IS an elegant solution! 🎉

Unironically good content, this guy drops new tech every video I love it.

You also *can* get non-transparent 1x2s, 1x6s and 1x8s without tubes. Issue is that these are very old bricks and mostly (if not all) cellulose acetate. Also modern colours won't be available.

alright this is cool, i like this one a lot

With that pattern, every 4x4 square has three studs. If you're placing 1x2's diagonally, it would be 2sqrt(2) = 2.82843 studs, so you can't extend it like that forever.
But that doesn't really matter. You could change the pattern in places, or just leave out transparent bricks when they don't line up.

next step is to connect this wall to a "straight" one with a minimal gap (creating a 135 degrees angle between two walls) and I can start planning my project I was holding off because I couldn't figure out 45 degrees angles.
Thank you a lot!

With this you can reach almost any angle.

Another great video building on previous ones. 👏 I love how you are clearly a skilled builder yet you are still learning new techniques and bringing us along for the ride. Keep it up!

I don't recall seeing that before! Great parts usage!

Oh. Oh wow. Well played Chris, Gonna go scroll through Bricklink and see if there's anything else that fits the requirements now!

Pretty sure old Lego 1×n bricks, like from the 70s probably, were all fully hollow, and I could not help thinking you’d use some before you went for 1×2 transparent hollow bricks.
Besides, another quirk of irrationality of square root of 2 means you’ll have to break the pattern every now and then, otherwise bricks placement will inevitably conflict with studs somewhere. But probably nothing fixable with the pattern starting sooner than expected every now and then, since 1×2 bricks give you enough room to adapt.
By the way, awesome technique!

The technique does work nicely indeed. But the diagonal pattern will never ever repeat if you want it to be fully legal. However, it can be infinitely extended.
(This is similar to the "rabbit sequence" in math that is based on the golden ratio; this one on sqrt(2), which btw is equivalent to the silver ratio.)

That's pretty cool, ngl.

Very cleaver indeed!

You could do a similar sliding technique with other pieces. Channels and door rails, my first memory of this was with Mars Mission in 2008, though part 2563 was introduced in 1991 and 4510 was introduced in 1983, with its derivatives of 32028 and 30586 being introduced in 1997 and 2001; MM only used it as a linear slide, but there's no reason this solution can't be adapted elsewhere. Since the channel parts are bricks and the door rails are plates, this should allow you to put a standard hinge plate (2429) under the door rail and a studless plate above, leaving the channel brick to have a flush buildable surface on top of it, otherwise the mechanism used to achieve this stays hidden; this would be important if you want to place a building on top of this, and since the mechanism works on one wall you can also place it under the other three walls. If a standard hinge doesn't end up working, then using the rounded 1x2 plate should suffice for odd alignment. The only issue, as with any diagonal, is how you get it to transition between grid patterns, as I don' think you can wedge a tilted square grid between a couple of angled plates, at least not without very specific spacing. The only difference is that you can build this off of standard grid placements and not have to deal with jumped studs, though you will still need a grid with plates and raised studs to allow for the hinge pieces to operate. I guess you could potentially also do it without the hinge plates and place the door rails directly above a stud, though I would think that the additional rotation within the individual parts, given that the two ends of the door rail are decoupled, would make alignment a bit more difficult.
You could also potentially go a step beyond this. If you don't place the 1x2 door rail directly over the 1x2 swivel hinge plate, or you use different door rail pieces, you could also use clips and a bar to snap the decoupled hinges together in a more central area. This would still fit under a build, as the clip plates would be under the door rail, planar with the swivel hinges, and these could be hidden under a wider plate as well. A wider build would just require some stepped plates to allow for this, you could also segment a wider build to have a floating central door rail as you could use two sections of clips and bar to achieve the floating third (or fourth, etc.) section of the door rail.

You're an absolute legend, sir!

There are also some older 2x1 pieces that don't have the central pin thing, I think

I did think about this when messing around in bricklink studio and seeing the tubeless bricks. I think any angle could work with these so long as you have the studs in a straight line and space the pieces correctly. The 6 long version would be even more efficient though I'm not sure how common that piece actually is, so I'd probably use 4 long if I was going to do this myself.
Seeing it on video gives me an idea, you could probably do the same thing using angled 1 wide tiles (I don't think the length would matter) by putting plates on either side connected across the top to have it locked along that line. It would slide around but you could probably make some sort of construction to properly lock it in place like with your plate stud reversal trick.

This is impressive!

awesome, love it

It is a pleasure to watch!!!

This is in the Ninjago City sets! They do a lot of these amazing building techniques that you are learning in those sets. You should get the Gardens to review, because I know at least two of the techniques you have mentioned recently are used in that set.

That's amazing!

Great idea. 2x1 plates don't have central studs either, so you can put them at 45 degree angle too. You can't build on them though.

Awesome stuff

Very cool. Also , if you wanted to continue the wall infinitly, the studs and jumpers would have to be infinitely non-repeating. You know, cause of the root 2.

Dang you are progressing fast with these techniques! Keep cooking!

awesome video as always!

I just got an idea to make 3-brick thick walls and just set them on some pegs, though that'd certainly be less stable

This exact technique was used in the Ninjago City Gardens set

I like how you keep digging

😮😮 so cleaver

Sometimes the simplest solution is the most effective one.

Genius

As you were building I thought of those real life glass bricks! Very cool technique!

Beautiful solution. I don't have the knowledge on how to set up an equation prove it (some sine-functions if I had to guess), but inuitively I'd say this pattern probably only fails if you make it really long and even then it might be fixable by throwing a 1x1 brick in there every so often.

I never had those transparent bricks in my own collection, but my grandmother happened to have them and I remember always wondering what applications the sliding aspect of them could hold.

It was that shrimple the whole time! 😮

Mind blown!!!

You're right that the grid can work forever, but there is no repeating pattern. It's likely something calculable though.

Game. Changer.

Amazing. How does it go for lining up on corners? Can you do a perfect square or rectangle with it?

Bonkers

Goddamn, this is cool

So cool! I need to use this technique in a moc some day! How did you come up with this?

so they always have to be some shade of transparent blue?

Super creative solution. I bet your videos are used at Lego as mandatory training material

At first I sort of thought of this as cheating, but I like the new possibilities too much to be a stick in the mud about it. And it looks like one could potentially save pieces by using a normal 1x2 brick on some of the jumpers, though I'd have to test it for myself. Plus I like how you can just use plates instead to get the bricks aligned. So many possibilities for piece savings! I'm always a sucker for good parts usage!

The beauty (or horror) of irrational numbers is that the pattern will actually be non-repeating forever. A repeating pattern can only represent rational numbers, not root 2.

Badass.

I'm imagining some Lego engineers not to mention the ones on YT watching us brainstorming the subject on the prev videos and thinkin "LOL wankers! Let's see when they'll get to it!" 🤣

I wonder if they have a book or some website that can share all techniques?????

Old Modulex bricks were made like the transparent parts, probably for the same reason?!

I have a bunch of pre-patent 1x2 bricks in (yellowed) white and red that don’t have the Centre post I just found while sorting through my old collection, so I guess there’s a few colors out there you could use 😅

Me: There's no way this works, it's mathematicaly impossible.
Him: *Pulls out transparent bricks*
Me: GODDAMN THE ANSWER HAS BEEN ALWAYS THERE!!!

The required pattern of diagonal studs _never repeats._ Because √2 is irrational.

I saw you drop the translucent pieces and just let out a long sob of "noo....." I hate this with every fibre of my being. Cant wait to see what cursed tech you discover next...

You know the bricks with no pin in the bottom also come in 1x4 and 1x6 versions, right? I'm sure you do. So, I wonder what you could find to do with those in the mix.

infinit motion is a little over stepping 360 degrees motion foresure but yes i agree anywhere along the stud which also means at some point it comes to an end there fore not infintite

🤯🤯🤯

Can we please see the angle of the first technique measured. I feel it probably isn’t exactly 45 degrees

really only need the corners to be blue transparant

🤯

I remember there being longer transparent pieces with nothing underneath. I was thinking you'd do this method.

Is this a running series? Lego boomer vs the impossible √2?