Longer Than Expected - BonBon

 

I took advantage of the last Cubicdissection offering to acquire a copy of BonBon designed by Frederic Boucher.  I’m fortunate that CD is relatively close and I can receive the puzzles within a few days.  The puzzle was released on a Wednesday and CD indicated that the packages would be sent out by the end of the week.  A couple of days for shipping, a couple more for quarantining, a few minutes to solve, and I would have my blog entry for the following week!

To keep track of your puzzle purchases on a minute-to-minute basis, Cubidissection provides a tracking number.  I was able to see that my package was launched on its journey on Friday.  I was assured that it would be received by 8:00 PM on Wednesday, but I knew that it would be arriving earlier.  On Saturday, I was pleased to see that the package had left North Carolina at 4:00 in the morning and arrived in my home state, New Jersey, at 5:00 PM.  Right on track!  I should receive it Sunday, or Monday at the latest.  Sunday morning, I checked online to determine what time it would be arriving and saw instead that it had arrived in Georgia at 10:00 PM on Saturday night !?!

For those of you not familiar with East Coast USA, New Jersey is several hundred miles North of North Carolina and Georgia is several hundred miles south of North Carolina.  In one day, the package went from NC to NJ to GA for over 1000 miles, passing both me and CD twice.  At this point, the package was stuck swirling around Georgia while occasionally updating me that it had been received in a Georgia distribution center and that it was still on track to be delivered by 8:00 PM on Wednesday.

On Wednesday, one week after the release, the status changed to the dreaded: It’s going to be Late.  When they tell you it’s going to be on time, you assume that it’s going to be late.  When they admit that it’s going to be late, well …

Fortunately, I did receive the package on Thursday and dutifully put it in the quarantine pile for the next couple of days.  

Was it worth the wait?  Most definitely!  The Butternut box with acrylic top and Morado pieces are beautiful.  I really like the look of the Morado grain.  I also like that the puzzle comes unsolved and gives nothing away with the way that it is packed for shipping.

The objective of the puzzle is to put all 5 pieces completely inside the box.  It turns out that it is trivial to place all the pieces inside with a single cube hanging out but much more difficult to get them in without any hanging out.

The box has 4 openings that can be used to insert pieces and help move them around.  It’s not really a spoiler to say that pieces can only be inserted using 2 of them.  The 2 square openings are too small to support inserting any of the pieces.

The geometry of the box supports a variety of piece rotations, making the solve a lot of fun.  While figuring out how the pieces can be rotated within the box, I found some really cool rotations that weren’t required, but they were really … uh … Cool!  Definitely something to consider for a future puzzle.

Like the shipping, The solving process took longer than expected.  I spent about 2 hours figuring out how to pack those 5 simple looking pieces in the box.  Of course, I enjoyed every minute of it.  I do enjoy fiddling with these types of puzzles and trying various things before resorting to any serious thought process.  However, when you do give it a good think, everything just falls into place rather quickly.

Since I obviously couldn’t include a photo of the solved puzzle, I decided to quickly take a picture of it packed with all 5 pieces and 4 of them coming out of one of the holes.  It wasn’t as quick as I thought and was an interesting task.  Have fun with that one!  Spoiler shot of the erupting BonBon below.

15 Steps to Success - Stairs Cube

Down the stairs to get a puzzle off the unsolved pile; up the stairs to solve it; down the stairs to put it on the solved pile.  Unlike some puzzle collectors, the majority of my puzzle collection does not reside on the same level of the house where I spend most of my time, requiring me to go up and down the stairs when puzzling.  Who said that solving puzzles wasn’t an aerobic exercise?

After recently going up and down the stairs several times to organize my puzzles, I decided that it was time to take a look at Stairs Cube by Osanori Yamamoto.  This puzzle, made by Wood Wonders, has been patiently waiting for some attention as it listened to the sounds of other puzzles being carried up and down the stairs over the years.  It was overdue to come upstairs and be appreciated.

Stairs Cube is a level 10.3.2 puzzle that consists of 4 pieces.  My version from Wood Wonders is made from Swiss Pear and Wenge.  The 2 woods contrast very nicely and couldn’t be more different.  The Wenge is very dark with a very noticeable grain pattern.  The Swiss Pear on the other hand is very light and so uniform it almost looks artificial.  Together, they make a very attractive puzzle.

If it looks like this puzzle would not be that difficult, you would be right.  It’s obvious where the pieces have to go and pretty easy to get them there.  There are some rotations involved, but they aren’t difficult to navigate.  This puzzle would make a good introduction to burrs requiring rotations.

A Self-Fulfilling Prophecy - Fantastic

 How do you get everyone to say that your puzzle is fantastic?  You name it FantasTIC of course.  And then you emboss it on the puzzle so there can be no doubt.  This way when someone hands it to a friend, they’ll have to say: This one is FantasTIC.  Nobody will ever be able to deny it.  Great marketing!  Simple but effective.  I’m going to start giving my puzzles names like, Best Puzzle Ever, A Must Have, and maybe even Better Than Fantastic.

Of Course, FantasTIC is fantastic since it was created by TIC master Andrew Crowell.  My 3D printed version is one of the many TICs that I bought from Andrew last year.  The puzzle consists of 5 pieces that make a 4x4x4 cube with a complexity of 7.7.12.4.  The last 3 pieces to be removed all require rotations.  The frame and one other piece are printed in yellow PLA and the other 3 pieces are printed with black PLA.  The embossing on the frame declares that this puzzle is….wait for it…. FantasTIC.

Since I received these puzzles unassembled, my description is from the assembly perspective.  Attempting to insert the piece within the frame from largest to smallest will rapidly reveal where each piece has to go within the puzzle.  I’m sure it will come as no surprise that this is not the order that the pieces have to be inserted within the frame.  It’s also much easier to determine the insertion order than actually inserting the pieces.

Trying to get those first 2 pieces within the frame, you may find yourself muttering something like, this $!@#%@!#$ FantasTIC puzzle!, which pretty well summarizes how puzzlers enjoy being frustrated.  It takes some effort to figure out how to insert each piece within the frame and then even more to get them within the frame at the same time.  They seem to work well together at not working well together.  Once you get those first 2 pieces where they need to be, you’ve surmounted the crux of the puzzle.  The remaining 2 pieces are interesting but fairly straight-forward to add.

This is the 10th post of the monthly Andrew Crowell Rotations and Obstructions Series - Turning Interlocking Cubes (ACROSTIC).  You can find the prior posts of the series here:

• January: Puzzling DNA - GeneTIC
• February: TIC, TIC, TIC - PackTIC II
• March: Green Beer ‘ill Cure What Ails Ya - BioTIC
• April: The Proper Way to Solve a Puzzle - PedanTIC
• May: Will This One Really Be Better Than The Others? - SkepTIC
• June: Space, The Final Frontier - MagellanTIC
• July: Hanging in Suspense - PackTIC V
• August: Fantastic 20+ Move TIC with an 11 Move Non-TIC Alternate Solution - PatheTIC
• September: I Had This Feeling That I Was Going To Like This Puzzle - MystTIC

Digging Through Puzzles - Artefacts

Finding a specific puzzle in a heap of puzzles is a puzzle in itself. I’m sure that most puzzlers that have crossed the 1000+ threshold have a sophisticated puzzle database that can be used to identify, describe, and locate any puzzle within a heartbeat. My sophisticated system, refined over several decades of puzzle collecting, is a 2-bin approach. New puzzles go in one clear plastic tub and solved puzzles go in another. Once a tub is filled, another is started. Unfortunately, there are probably more new tubs than finished tubs at this point in time. Since the tubs are mostly chronological, finding a puzzle involves locating the tub from the era that the puzzle was acquired or solved. I had the opportunity to test this system when I saw that Cubicdissection may rerelease Artefacts and I decided to take it out for this post.

In 2015, Packmaster Frederic Boucher entered a 2D packing puzzle in the Nob Yoshigahara Puzzle Design Competition.  This packing conundrum consisted of 5 wooden pieces and a metal rod that had to be packed into a square frame.  Each of the wooden pieces is made from two 1x 1x2 blocks.  Of course, the difficulty with these pieces is that they were glued up all wrong and are shifted by half a unit.  

The following year, Cubicdissection released a run of Artefacts in October 2016.  The Walnut frame was completed with a Baltic Birch bottom and Maple spines.  Along with the pieces made from Chechen, the puzzle is very handsome.  The steel dowel is much heavier than the other pieces and the black color makes it blend in nicely with the rest of the puzzle.

Artefacts has 2 challenges: 1) Pack the frame with all the pieces with the rod laying on its side, and 2) Pack the frame with all the pieces with the rod standing up vertically from a hole in the center of the frame.  Two challenges for the price of one!

The Cubicdissection site indicates that there are 3 ways to pack the pieces in the frame with the rod laying down.  3 Ways!  Seems like you would have to work real hard not to stumble upon one of those solutions.  However, you may find yourself spending quite a bit of time trying to put the 5 Chechen pieces in the fame only to discover that the rod doesn’t fit.

Once you get a feel for how the pieces work together, it shouldn’t take too long to find one of the solutions.  After the first one is found, you then have to decide whether to look for the others.  Personally, I’m a one and done type of solver and once the first one is found I consider it solved.  If it has hundreds of other solutions, I generally don’t feel obligated to hunt every one down.  However, in this case there were only 3 and I’d be embarrassed to admit to not finding them all.

Finding all 3 solutions took about 3 times longer than finding 1.  The second was a little faster and the third was a little slower.  Of course, you need to make sure that you are not finding the same solution over and over again.  To help you with that, I did notice that the steel rod was in a different place for all 3, so you can use that as a way to identify the different solutions.  Another interesting fact is that only one of the wooden pieces occupies the same position for all 3 solutions.  So no, you can’t just swap a couple of pieces and expect to find another solution.

For the second challenge, you place the steel rod standing up in the hole in the center of the frame and then add the remaining 5 pieces.  Standing that steel dowel on end means that it occupies less than half the space it did laying down.  So, it should be easier, right?  Not so much.  This one is not as straight forward as the other challenge and has only 1 solution.  This challenge took about the same time as finding a solution for the first challenge.

The tolerances on this version of Artefacts from Cubicdissection are very exact.  The 3 solutions for the dowel laying down are fairly loose in the frame but the solution for the dowel standing on end is snug letting you know which solution drove the frame size.  The steel rod also fits snugly in the round hole and won’t fall out if the puzzle is tipped.

If your interested in acquiring a copy of the puzzle for your own, keep an eye on the Cubicdissection Upcoming page.

Energetic Puzzling - Reactor Nuclear Packing Puzzle

 

It’s about to go critical! The plutonium rods have been improperly stored, and a radioactive disaster is only moments away! Worse yet, some of the rods have begun to glow red-hot with radioactive decay. You must pack all the rods flush in the container, while balancing the ambient radiation, so that it can be sealed and transported to a nearby containment facility.

This is the message that greets you when you open the Reactor Nuclear Packing Puzzle from CoreMods.  Not only do you need to solve the puzzle, but you need to do it quickly.  No dawdling with those glowing rods.

Reactor is a squat gray box with a solid yellow bottom and a yellow cover with an ionizing radiation trefoil symbol.  Hopefully, your mail carrier won’t open the package for inspection.  The cover just floats on top and although it stays in place once the pieces are correctly inserted, it would be nice if it didn’t move when it was empty as well.

The reactor chamber consists of a 5x5 grid of cylindrical chambers for storing 25 radioactive rods.  All you have to do is pack the supplied 25 radioactive rods into the reactor chambers.  Of course, there are some complicating factors that confound what should be an easy process.  The first is that some of the rods are connected to each other and you have to figure out how to create a 5x5 grid with the 7 aggregated shapes.  The second is that the rods are not all the same length and the chambers are not all the same depth.  Each come in 3 sizes and to make it more difficult, they don’t match in number, so you need to put some shorter rods in deeper chambers.  If that wasn’t enough, there is an unseen element that further impacts potential solutions.

In addition to the original 7 Reactor pieces, there is a second set of 8 pieces that can be packed within the same box.  The second set has a more fluid, rounded look to them compared to the rectangular appearance of the original set.  It looks like the rods have actually started to melt.

So where did I hear about this puzzle and why did I get it?  At the NYPP earlier this year (A Puzzle Party in the Big Apple - NYPP 2020), a good friend mentioned that he was a member of an online puzzle community that I might be interested in.  Later, he emailed me an invitation link that I used to join the Mechanical Puzzles Discord group.  At the time that I am writing this, there are currently 776 members.  This group has many puzzle related channels and discusses pizza, pets, polls, and sometimes even puzzles.  Occasionally, members participate in virtual gatherings that include multiple people working on the same puzzle, usually a puzzle developed by one of the group members.

The last gathering started out as a Reactor party and morphed into a full virtual puzzle party with Reactor as one component of it.  We were lucky to have the Reactor developer, CoreMods, in attendance.  It’s a bonus when the designer is available to provide the background story behind the creation of the puzzle as well as future potential updates and other potential offerings.  

I solved both Reactor challenges during the Mechanical Puzzle Discord gathering.  Although CoreMods indicated that the second set was harder, I found it to be the easier of the two.  One other member that had completed both also agreed that he found the second challenge easier as well.  Regardless, neither of the challenges is going to stump anyone for a long period of time.  They are very approachable and can be solved fairly quickly with a little experimentation.

CoreMods indicated that he has 2 other sets of pieces under development that are more difficult than the available 2 sets and provided some overall details on what to expect, which I won’t reveal here.  You’ll just have to wait for them to be released.

CoreMods produces the Reactor Nuclear Packing Puzzle and additional challenges on his 3D printer and you can find them on his CoreMods Etsy Store when they are in stock.

If you are interested in checking out the Mechanical Puzzles Discord, you can use this Mechanical Puzzles Discord Invitation.

Happy 16th! - Sweet Sixteen

Happy 16th to you!  Yes, today is the 16th of September and we are celebrating with Sweet Sixteen by Jack Krijnen.  Jack developed this unique level 16 burr in 2002 and Cubicdissection released a run in July 2013.  You may recall that I originally pulled this one out and solved it at the end of last year, mistakenly thinking that the puzzle was Happy New Year by Johan van de Konijnenberg, which was the subject of the Happy New Year! post.  Like Happy New Year, Sweet Sixteen is made from Maple (5 pieces), Cherry (4 pieces), and Walnut (2 pieces) and the pieces have a very small bevel on the ends and none along the length.  

The puzzle is not difficult to take apart and you can quickly make a pile of pieces from the puzzle.  After the disassembly, I left the pieces to lounge around on a shelf for a while to allow any neural connections created from the disassembly to decay.  After the last gasp of the final associated neuron, I attacked the assembly.  In actuality, I’m sure that I’m deluding myself thinking that I’m still capable of making neural connectivity changes that will survive the time between one breath and another.  I was going to mention something else here but I can’t remember what it was.

I waited until I had a good block of time to solve this puzzle and then sat down to tackle this bad boy and was astonished to have it assembled in less than 1 hour.  I was able to break the assembly down into several smaller steps that led to logical progression of assembling the pieces.  Of course, I could have also have been assisted by an extra helping of luck.  Sweet Sixteen has 1 more piece than Happy New Year (11 vs. 10), but I found it slightly easier to solve.  It is the perfect introduction to higher level burrs with more than 6 pieces.

The remainder of this blog contains some information on how I proceeded to solve the puzzle, which may be spoiler for those planning on solving this puzzle.  Normally, I don’t like to post anything that can remotely be considered a spoiler, but since this puzzle has been released more than 6 years ago, I’m guessing that most copies in the wild on collector’s shelves won’t mind.  If you are just preparing to pull this one off your own puzzle backlog, you may want to stop reading here until you’ve solved your own copy.

The first clue is a gift.  The pieces were made from 3 different types of wood that correlate to the orientation of the pieces.  I suspect that the solution would have been significantly more difficult without this information.

Since there were only 2 walnut pieces, I started with them.  There are only two ways that they can be put together and more information was needed before determining the correct one which would hopefully become apparent when experimenting how they could fit within the 4 cherry pieces.

When adding the 4 cherry pieces to the 2 walnut pieces, I quickly realized that the combination of pieces needed to leave an opening for each of the 5 maple pieces that go through the puzzle.  It became evident that the cherry pieces had to be divided into 2 sets of pairs to acquire the 5 holes but not how the pairs were oriented with each other or the orientation of the walnut pieces inside.

The design of the 5 maple pieces provides clues to their location within the puzzle.  With some inspection, it can be determined which piece is the middle piece, which 2 pieces are sandwiched by the ends of the walnut pieces, and which pieces are at the end of the 4 cherry pieces.  With that information, it is possible to orient the cherry and walnut pieces to accommodate the 5 maple pieces.

It’s easy to add the 3 maple pieces that go through the cherry pieces, leaving only the 2 maple pieces trapped by the ends of the walnut pieces.  Disassembling the puzzle to the point where the 2 pieces can be added is straight-forward and quick.  Only one other piece had to be temporarily removed and then added back in after.

And there you have it.  A little insight into one way to tackle this particular 11-piece burr.  Hopefully there is something that you can use to when solving these types of burrs in the future.

Apparently Packing Puzzles - Corner Cube, Edge Cube, Angle Cube

The latest fad for packing puzzles is to pack a few puzzle pieces into a box with one or more restricted openings such that the box appears completely full.  Usually, the pieces dance around each other within the box to acquire their final resting position.  It is surprising how many moves some of them take to solve.

The 2 most popular sizes for these puzzles are 3x3x3 and 3x3x2.  The solved appearance, making it look like a complete cube (or squat cube) within a box, has led to these puzzles being referred to as Apparent Cube Puzzles.  

These types of puzzles are very approachable and a great way to introduce puzzles to non-puzzlers.  They are clever little conundrums that can be enjoyed without requiring a large intricate attack strategy.

Recently, I had the opportunity to play with 3 of these types of packing puzzles from Andrew Crowell: Corner Cube, Edge Cube, and Angle Cube.  All 3 were 3D printed by Andrew in a variety of colors. All the cubes are of the squat 3x3x2 format and each of the puzzles has the name nicely debossed on the outside.  Everything is perfectly sized so that the pieces move extremely well within the boxes.  Occasionally, a piece will rotate out of alignment, but this is easy to remedy and not a real problem.

There has been some debate recently on whether it is obvious that the box should look completely filled instead of simply getting all the pieces within the box.  For those that don’t apparently get it, Andrew has addressed this issue by providing the following message on the inside bottom of the box: COMPLETELY FILL THE OPENING.  I’m sure that this will be followed by photos of pieces crammed in the openings and hanging out at all sorts of angles.


Corner Cube

 

 

 

 

 

 

Corner Cube consists of a brown box and 4 yellow pieces.  The opening of the box is in the corner and is unusual in the fact that it is not an integral number of voxels (think of voxels as the cubies used to construct the pieces).  It is 1.5 voxels in each direction.  I hope you weren’t thinking that the extra half voxel in each direction was to help you get the pieces in.  It’s there to provide a larger area that needs to be filled by the apparent cube within.

The 4 pieces look rather innocuous with 2 of them being simple di-cubes.  Don’t let that fool you however.  It takes 8 moves to get the first piece out once it’s assembled.  The solving procedure is very satisfying, and as with many packing puzzles like this, there is a lot of box tilting to get the pieces to move where you want them.  And yes, there is a rotation involved.  I hope you weren’t surprised by that.


Edge Cube

 

 

 

 

 

 

Edge Cube was made with a dark green box and 5 black pieces.  With the 2 dark colors, the contrast isn’t as striking as the with the other 2 puzzles.  I think that swapping the dark green with the lighter green of the Angle Cube might be a better choice.  

Like Corner Cube, the opening is 1.5 voxels in each direction.  The difference is that it is on the edge instead of the corner.  Are you grokking the naming scheme yet?

This one took me the longest to figure out even though it is the easiest one to repeat.  I had a good idea early on what the first piece to be removed was but couldn’t find a way to make it work. I tried a couple of other assumptions but in the end, I went back to the first assumption and finally found out how to make it work.  There is a very nice movement required and once that is figured out, the rest falls into place.  And yes, rotations are required.


Angle Cube

 

 

 

 

 

 

Angle Cube has a shiny light blue box with shiny gold pieces.  Don’t you just love the sound of that - A box full of gold pieces.  Is anyone else thinking that there should be a treasure chest puzzle available sometime in the future.  I have to say that the filament used to make the gold pieces is awesome!  They really stand out.

The box for Angle Cube is missing an entire edge.  But to make up for taking a piece of the bottom out, a 1x1 triangular wedge has been added back on to the top and bottom to provide an opening with an angle.

Only 3 pieces to pack in the box.  Should be easy!  However, 7 moves are needed to remove the first piece when they are all in the box.  At this point do you even have to wonder whether rotations are required?  Of course they are!  And this one has the most unusual use of rotations in the series so far.

In summary, Andrews’s Apparent Cubes are nicely designed and clever.  I highly recommend them.  As a puzzle designer myself, I appreciate the effort required to come up with a good design and, for the Andrew’s Apparent Cubes in particular, the design considerations concerning the shape of the box openings.