How do you solve the snake cube puzzle? is a very interesting question right now. Below is the best answer to the How do you solve the snake cube puzzle? that we assembled. we will definitely make you satisfied!

**William Chen**

**Votes:** 3228

There aren’t actually that many variations on the snake cube puzzle. Here’s what I believe is the most common one, and it’s solution.

Source: Google images.

**SiamMandalay**

**Votes:** 3139

3D Video Solutions with Rotations Available here

**Jovan Xin**

**Votes:** 3961

My first cubing question!

Which is actually kind of ironic, considering my profile picture is literally a cube.

I use the Moyu Weilong GTS V2M.

Yeah, it’s a long name.

This is what it looks like.

How does it feel? – Clicky, great turning, smooth, originally crunchy but now smooth.

**John Deal**

**Votes:** 5369

Google “How do you solve the snake cube puzzle?” and you will get 301,000 results. Look at the first few results and you will probably identify several appropriate sites; they have much more information than me.

**Teh Pigez**

**Votes:** 9450

So, You have passed all the hurdles that come up to this point. You’ve solved the 16×16 Grass block, 3×3 Bee movie edition, The Banana SmartQube, And the Area 51 Raid Cube.

So, First take the cube in your hand.

Scramble It by touching it for exactly 4.2069 milliseconds.

Then we begin the solving process.

HERE WE GO!

And now the final step:

Disregard all the above steps and touch the cube.

You have now successfully solved the greatest puzzle known to man!

**Peter HungSuhail Prasad**

**Votes:** 9764

There are three factors of speedcubing:

You can tackle them in reverse order:3. physical speed

2. recognition and look-ahead

1. methods and algorithmsIf you are transitioning from the beginner’s method to Fridrich (which I recommend):

**Jeff Robbert**

**Votes:** 226

I just got one of these for Christmas. After playing with it for a few hours I realized that I was not going to solve it on my own. I should tell you that I’m quite stubborn about some things and don’t really give up until I loose interest, I was going to solve this thing without cheating.

Rather than looking for a solution on Google, I decided that if I wrote my own program that solved it, I could claim to have solved it.

Also, not being a programmer, the only software I had was Microsoft Excel. Setting it up was fairly straightforward, I assigned each block a number 1–27 in order, 1–9 on the first level, 10–18 in the middle level, and 19–27 on the bottom level. 14 was in the very center, 1 was above 10 and then 19. It would have been more direct to call the blocks by their location such as 111, 121, 131, 211, 221… based on the 3d matrix, however I went with the simple numbers and used a lookup table to get the matrix number.

From here I created a list of all the possible relative configurations. Block 1 was adjacent to 2, 4, and 10. Block 2 was adjacent to 1, 3, 5, and 11. There are 27 blocks and each is adjacent to 3–6 other blocks. This is just adding numbers in a spreadsheet so it only took a minute or two. I was going to use the matrix number to find adjacent blocks, but that formula would have taken longer than just hard coding the block numbers.

The snake is made of either 90 or 180 degree connections, if it is 90, then choose a random adjacent block, it is 180 then the block is dictated by the two prior blocks. The matrix number makes this really easy, within any 3 block combination, the ones, tens, or hundreds will vary and the other two are constant. The resulting block will either be within the cube, or will have a 0 or a 4.

I used random number generator to just guess a block, then guess the adjacent blocks from my list. I had a macro that just kept hitting the recalculate button, if a solution was found with 27 unique blocks it would stop. I estimated about 10^16 combinations were possible.

So I tried it first like this and just let in run and went to bed. Still running in the morning and had gone through 10^7 iterations.

I added some more criteria, that if the adjacent block had already been used, to choose a different adjacent block. Also limited the 90 degree choice to not be the block that would be 180. With these limits, the random choices became a lot more targeted and a solution was found within a dew seconds and only 3000 iterations.

Just for fun I let it keep going and give me all the solutions that it found. The block numbers were different, but that was just based on the numbering convention, it always started in one corner, went through the very center at the same point, and ended in the opposite corner.

All told I spent a few hours on two nights to solve it, much quicker and less frustrating than just playing with it.

**Buddha Buck**

**Votes:** 5948

You need to think of the cube not as 6 faces with nine squares in 6 colors, but rather as a collection of 12 edges (each of which have a unique pair of colors), 8 corners (each of which have a unique triple of colors), and 6 centers (each of which have a unique color).

You need to examine and have ingrained in your head how they move when you turn. For instance, you need to recognize that the 6 centers never move relative to each other — the cube in front of me will always have the red center on the opposite face of the cube from the orange center, green opposite blue, yellow opposite white, and red-yellow-green are in clockwise order. The fixed centers give each piece a fixed “home location”.

Every method for solving the Rubik’s cube that I know of proceeds through a series of steps, each step solves part of it, but restricts what can be done to solve the rest. For instance, if the first stage in solving the cube is to “build a white cross”, then the moves I make in the second and subsequent stages must preserve that white cross. They can (and must!) disrupt it temporarily, but must always restore it. So choosing a solving order, a sequence of stages, is important.

Then you need to work on the individual “algorithms” — the canned sequences of moves that you use in each stage to progress onto the next stage. For instance, if your stages are “build a white cross; place white corners (solving 1st layer); place middle layer edges; permute last layer corners, orient final corners, orient final edges, permute final edges” (roughly one of the methods I use), then a particular algorithm used in the 3rd stage might be to move an edge from the last layer to a specific middle layer location. Another algorithm might be to flip two edge pieces on the last layer. and so on.

Early stage algorithms aren’t very constrained — when making a white cross, you don’t care about anything on the cube except four edge locations, so you don’t care if your algorithms mess up corners or other edges — but late stage algorithms are more constrained. In my set of stages, I want my last layer corner orienting algorithms to maintain the first two layers and corner position, but I don’t care what they do with the last layer edges. As such, early stage algorithms tend to be short and “intuitive” (to the point that some methods simply say “solve the white cross” and don’t list any algorithms to do it, and some even go as far as to say that solving the first two layers should be done “intuitively”). Late stage algorithms have to restore things they’ve set asunder, so tend to be longer and “less intuitive”. Deliberate searching is often necessary to develop them.

Many algorithms are composed of smaller algorithms using one of two forms: If X and Y are two algorithms (with inverses X’ and Y’ respectively), then

Commutators and conjugates help build a lot of algorithms.

Any algorithm, if repeated enough times, will return you to where you started. No algorithm takes more than 1260 repetitions to come back, most useful ones take considerably shorter. Try something repeatedly on a solved cube to see what it does, write down interesting ones.

Learn how to disassemble the cube and put it back together solved. If that sounds like I’m encouraging you to cheat, then yes, I am. It’s a lot easier to see what an algorithm does if you start with a solved cube. If you make a mistake, taking it apart and putting it back together again is better than giving up. Once you know how to solve any cube, you don’t have to cheat anymore, but getting to that point is the point of this exercise.

**Nati Yossef**

**Votes:** 8058

## Is it true that thinking too deeply can make you lose your sanity?

Growing up, I had a very rough time. Age 15 I became clinically depressed and eventually suicidel. Anyone who’s been through that, especially this young, knows how deep you descend into your own psyche. Can it make you lose your sanity? Yes. But it can also give you a new life. No one else will appreciate life more than you do. You’ll feel every second of Life in your bones.

**Pratik Poddar**

**Votes:** 6576

## How do I get started solving puzzles?

“Solving math Puzzles” really reflects “Training of the Mind”. Its not about smartness or intelligence or IQ. Its really about how well you have trained your mind to solve problems.

How will you train your mind?

When you see a problem,questions you need to ask yourself:of course 1) How to solve the problem?Once you have solved the problem, 2) What are the ways I could have solved this problem?3) Is there a way to check that my solution is correct intuitively. This is more important than you would imagine.If you are not able to solve the problem, its fine! Read the solution carefully. 4) What

**Rosé**

**Votes:** 3530

## Is solving math problem solving like solving puzzles?

I don’t think so.

**David Kahana**

**Votes:** 7316

## Is it really true that every standard Rubik’s cube puzzle can be solved in 20 moves or less?

Yes. If you count either a quarter turn or a half turn of a face as one move, then any position of a standard 3×3 Rubik’s cube can be solved in 20 moves. If you count only a quarter turn as a move then the number of moves required is 26. These numbers are also the diameters of the corresponding Cayley graphs of the Rubik’s cube group, which is a subgroup of S48,S48,S_{48}, generated by the twists of the six faces.

Interestingly, in the quarter turn metric, there is only one known cube position requiring the full 26 moves.

Rubik’s Cube group – Wikipedia

It was proven in 2010 by group theoretic techniques

**Rudraksh Agnihotri**

**Votes:** 7230

## What are some tips to solve puzzles fastly?

6 Ways to Enhance Your Problem Solving Skills

Have you ever thought of yourself as a problem solver? I’m guessing not. But in reality we are constantly solving problems. And the better we are at it, the easier our lives are.

Problems arise in many shapes and forms. They can be mundane, everyday problems:

Every day you’ll be faced with at least one problem to solve

**Joe Cassavaugh**

**Votes:** 9349

## What are the benefits of solving Rubik’s Cubes?

It depends on whether you solve it yourself, or just learn to solve it by using additional information (like books or videos).

Anyone who solves it by themselves (without outside information), has created their own little science-of-the-cube. I solved it back in 1980-1981 when the cube first hit the US, in about 10 hours, in two un-interupted sessions. It takes a mixture of skill and determination for anyone to solve the cube on their own. And the nice thing about the cube is, it’s a puzzle with no hidden information. Everything is right there in the open and it’s all about observation, exper

**Hemanth Kumar K**

**Votes:** 6097

## What are the best strategies to solve a Sudoku?

Very good question.

I like sudoku puzzles so much. In my childhood, I used to solve these sudoku puzzles daily (but now that interest has gone , that’s different thing😂). I like the sudoku puzzle given in HINDU newspaper than the newspaper we used to get( Sakshi , Telugu newspaper). Their puzzle , actually sharpens your brain and it is a very good time pass for me in my childhood.

Coming back to your question, first of all what is sudoku game? ( Don’t worry , I don’t go into its history as it is not related to the question).

(Image source: Google)

The puzzle looks like this. What we have to do is

**Jillian Rose**

**Votes:** 3102

## I’m 19 (almost 20) and having horrible memory loss, I can’t even remember what happened yesterday. What could be the reason why I’m experiencing this?

Stress. TOO much stress. Drop some responsibilities… put your foot down with certain people if you have to… and escape for some time of rest and reconnecting with who you are as a person and what your passions are. Take magnesium. Learn to breath from deep down in your belly instead of up in your chest. Retrain your mind to think in positive terms if you haven’t already. And realize that there may be some relationships you are in that are bad for your health, if not at home then maybe at work. Do you find you are often blamed or shamed or abandoned by someone who is supposed to love you? This

**William Chen**

**Votes:** 5707

## What are some tips for solving a wooden cube puzzle?

I’m not completely sure if you’re talking about this:

or if you’re talking about this:

Regardless, my advice for these wooden cube puzzles is the same – find the piece of the puzzle, or the segment of the wooden snake that is the largest, or has the fewest possible configurations within the cube.

That piece / segment will have only a few ways it can be arranged within the cube, start with one of them and start putting the other pieces around it, from the largest to the smallest. If that doesn’t end up working, try another configuration of your largest piece.

**Cristi Stoica**

**Votes:** 1784

## Can we solve a 3*3 Rubiks cube which is modified/rearranged randomly?

3x3x3 Rubik’s cube

If you disassemble the cube and then put the pieces back randomly, then try to solve it by legal moves, you will end out in one of these cases:

**Shuai Ye**

**Votes:** 5498

## Are there any puzzle like Rubik’s cubes?

I can give some recommendations depending on what you want to get out of a puzzle.

Think about what you get (and practice) when solving a Rubik’s cube. You need to coordinate your eyes and hands, you need to be able to execute algorithms without errors. You need to identify patterns. These are the typical skills required for speed solving. If you enjoy these tasks, you can certainly play with other types of twisted puzzles. Also you’ll find playing musical instruments requires the same set of skills. Perhaps learning guitar would be fun for you.

Then there is blind solving. You need to identify

**Alon Amit**

**Votes:** 2017

## Why do people enjoy solving math puzzles?

The original question read: Who enjoys solving math puzzles?

I do.

—

It turns out that the question is also concerned with why someone would enjoy solving math puzzles. So to plagiarize my own comment:

How do you explain why you enjoy anything? A good math puzzle has an elegant, attractive statement and a beautiful and clever solution. Wrestling with the problem is a quiet, personal journey replete with excitement, desperation and drama, and there’s nothing quite like the deep sense of satisfaction and accomplishment that comes from making it to the summit.

I don’t know that this explains why I e

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