# How to solve Pyramid Cube 4×4

## Introduction

The Pyramid Cube 4×4 is a great puzzle for beginners, but it can be difficult to solve if you don’t know how. This tutorial will teach you how to solve the Pyramid Cube 4×4 using an algorithm specifically designed for this type of cube.

Turn the bottom face clockwise until a yellow cross is formed.In order to solve the first layer, you’ll need to turn the bottom face clockwise until a yellow cross is formed.

The algorithm for solving this layer is as follows:

Turn the bottom face counterclockwise twice (3).

Turn the top face clockwise twice (4).

Move one step forward in your calculation to get your next row number for 0 steps per turn and 1 step per move. This will be represented by the letters ‘a’ through ‘j’. It’s important that you don’t use any previous information when doing this part of your calculations so that they stay consistent throughout each puzzle’s life cycle!

Solve the first layer like you would solving a 3×3 cube.

Solve the first layer like you would solving a 3×3 cube. The yellow crosses are formed by turning the bottom face counterclockwise (to form the yellow cross).

Solve the second layer by rotating the upper face until a top yellow piece and bottom yellow corner line up. Then move the corner onto its correct position using the algorithm below. Repeat this process while solving one row at a time.

To solve the second layer, you will need to rotate the upper face until a top yellow piece and bottom yellow corner line up. Then move the corner onto its correct position using this algorithm:

Rotate left or right until an edge is vertical (if it isn’t already).

Move some of your pieces so that they form a closed shape with sides no longer than 1 unit wide.

Repeat steps 2 through 4 while solving one row at a time

#2F = move the front face 90 degrees clockwise

To solve the second layer, you need to move the front face 90 degrees clockwise. The front face is the face with the yellow sticker.

To do this, use this algorithm:

Turn your pyramid into a cube by rotating it both ways (clockwise and counter-clockwise) until you can see all sides of your pyramid from above.

Rotate each corner clockwise or counter-clockwise until it touches another corner in its rotation. When two corners touch one another, they form a pair and are called “pairs” for this step of solving Pyramids 4x4s!

#2U = move the upper face 90 degrees clockwise

The second step is to rotate the upper face 90 degrees clockwise. This can be done using the algorithm.

The next step is to solve your bottom layer (the one with a 1 at its center). After that, move on to solving your top layer by following the pattern on it:

If you want to turn it 90 degrees clockwise, then move one unit up from where it currently sits in relation to its neighboring cubes (i.e., if you’re looking at a cube on top of another cube and want that lower cube rotation counterclockwise by two units then move two units down relative to them).

To complete this process, simply follow through all six moves above until both sides have been transformed into their respective forms twice over!

#2B = move the back face 90 degrees clockwise

To move the back face 90 degrees clockwise, use the #2B algorithm.

Move one side face down and up at the same time.

Rotate each face in turn by 90 degrees clockwise until all faces are aligned with their respective middle layer pattern.

#2D = move the down face 90 degrees clockwise

To solve the 2x2x2 cube, you’ll need to rotate a face 90 degrees clockwise. This is the same as a counter-clockwise rotation on the right face, and it’s also equivalent to a clockwise rotation on your left face.

The same goes for your up and down faces; they have their own respective directions of rotation (right/counterclockwise) which can be combined together into one solution when solving this puzzle!

x  R U’ R’ U’ R U R’ F’ R U R’ U’ F  x

In this step, you will be solving the middle three moves.

The first move is a U2 R2 U’ R’ F2 L3 R3 U2 F2 L U’ R3 L’ U’. The last move is also a U’, but it has an extra piece on top of it.

The middle three moves are:

F – x 2) x – y 3) y – z 4 5 6 7 8 9 10

To solve the third layer, first turn down and up faces in order to align with your middle layer pattern so it will be easier to solve. Next, follow this algorithm to correctly place the corners of the third layer into their correct positions.

To solve the third layer, first turn down and up faces in order to align with your middle layer pattern so it will be easier to solve. Next, follow this algorithm to correctly place the corners of the third layer into their correct positions.

Turn all bottom layers face-up except one (the topmost one). Align these bottom layers with their corresponding top layers’ corners by matching their edges and matching up corners on opposite sides of each other: if there’s an open space between two adjacent faces in a corner piece, fill it with a face that has no open spaces; otherwise fill it with one that does have an open space. This way we can get rid of any gaps between them before solving next step!

#2Ui = move upper face 90 degrees counter-clockwise

To solve the third layer, you will have to move the upper face 90 degrees counter-clockwise. The algorithm below shows how to do this:

Use the algorithm below to solve the third layer:

Turn down and up faces in order to align with your middle layer pattern so it will be easier to solve

#2Fi = move front face 90 degrees counter-clockwise (left)

The second step is to rotate the front face 90 degrees counter-clockwise, which means that you need to move it left. To do this, turn your cube so that it’s facing down and then pull out a corner of the top layer. Rotate this layer 90 degrees and push into place again so that it lines up with the rest of your puzzle. Now, rotate another corner from this same layer (the fourth layer) until you’ve reached an angle equal to 90° minus whatever number was on top—in our case 2fi+1=0° negative 1).

#2Ri = move right face 90 degrees counter-clockwise (down)

To move the right face 90 degrees counter-clockwise (down), we will need to rotate the top face of Pyramid Cube 4×4. The top face should be rotated in such a way that its corner line is parallel with the bottom edge of Pyramid Cube 4×4.

To do this, use one hand and hold both corners of your top face at once, then slide them apart until they are touching each other at one end point only. Then with your other hand hold both corners from above and pull them together again until you reach another point on your top face where they touch each other again

(R U Ri U R’) (R U2 R’) y (Ri Di R D) (Ri Di Ri) y’ (R U Ri U’) (R U2 Ri)

To solve the Pyramid Cube 4×4, you must first identify which edge is not on a corner. The algorithm to solve this puzzle is as follows:

Follow this algorithm to correctly place the corners of the third layer into their correct positions:

R U Ri U R’ (R U2 R’) y (Ri Di R D) (Ri Di Ri) y’ (R U Ri U’) (R U2 Ri). You can call this algorithm P3-C or SC-C for short. If you’re solving a smaller pyramid cube, such as 2x2x2 or 3x3x3, use corresponding procedures instead!

## Conclusion

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