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The Rubik's Cube can be frustrating and may seem next to impossible to restore to its original configuration. However, once you know a few algorithms, it is very easy to solve . The method described in this article is the Layer by Layer method also known as the Beginner's Method: first, you solve one face of the cube (first layer), then the middle layer, and finally the last layer.

Part 1
Part 1 of 4:

Solving the First Layer

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  1. 1
    Choose one face to start with. The most common face for beginners to start with is the white face. In the examples that will follow, the color for the first layer is white. It’s important to note that starting with a color other than white can be confusing if you are just starting. This is because you will have to imagine different colors in place of the ones in this article.
  2. 2
    Solve the cross . Find the side with the white square in the center and put it on top. Set into position the four edge pieces that contain white. The color that the edges have must line up with both the white center and the center on the sides of the cube. The cross only needs a maximum of eight moves to become solved. (five or six in general).
    • If you put a white edge piece in the correct place but it is flipped around, then try popping it out of the top layer and reinserting it correctly.
    • If you are really struggling, then put the white edge pieces next to the yellow center instead and then rotate each edge piece above its correct center, bringing it down so it is now next to the white center instead.
    • Place the cross at the bottom. Turn the cube over 180° so that the cross is now on the bottom.
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  3. 3
    Solve the four corners of the first layer, one by one. You should also be able to place the corners without needing algorithms. To get you started, here is an example of one corner being solved:
    Rubik_example01_step1_246.png
    VRU_128.png
    Rubik_example01_step2_768.png
    HUL_668.png
    Rubik_example01_step3_219.png
    VRD_231.png
    Rubik_example01_step4_398.png
    • There are some algorithms if you cannot do it intuitively yet. Try turning the cube so the white is facing up again, and check to see which direction the corner points. If it faces right, you can do R’ D’ R. If it faces you, you can do D’ R’ D R. If it faces down, you can do F L D2 L’ F’.
    • Another common method for solving a corner is to have it above the slot it needs to go in and repeat R U R’ U’ until it is solved.
    • At the end of this step, the first layer should be complete, with a solid color (in this case, white) at the bottom.
  4. 4
    Verify your first layer is correct. You should now have the first layer complete and look like this (from the bottom side):
    Rubik_FLcomplete_1_571.png
    Rubik_FLcomplete_2_642.png
    Rubik_FLcomplete_3_348.png
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Part 2
Part 2 of 4:

Solving the Middle Layer

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  1. 1
    Place the four edges of the middle layer. Those edge pieces are the ones that do not contain yellow in our example. You need to know only one algorithm to solve the middle layer. The second algorithm is symmetrical to the first.
    • If the edge piece is located in the last layer:
      Rubik_ML_1_995.png
      HUL_668.png
      VRU_128.png
      HUR_929.png
      VRD_231.png
      HUR_929.png
      FCCW_690.png
      HUL_668.png
      FCW_465.png
      (1.a)
      Rubik_ML_2_778.png
      HUR_929.png
      VLU_765.png
      HUL_668.png
      VLD_114.png
      HUL_668.png
      FCW_465.png
      HUR_929.png
      FCCW_690.png
      (1.b)
      symmetrical to (1.a)
    • If the edge piece is in the middle layer but in the wrong place or with the wrong orientation, simply use the same algorithm to place any other edge piece in its position. Your edge piece will then be in the last layer, and you just have to use the algorithm again to position it properly in the middle layer.
  2. 2
    Verify correct positioning. Your cube should now have the first two layers complete and look like this (from the bottom side):
    Rubik_F2Lcomplete_1_660.png
    Rubik_F2Lcomplete_2_149.png
    Rubik_F2Lcomplete_3_840.png
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Part 3
Part 3 of 4:

Solving the Last Layer

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  1. 1
    Permute the corners. At this step, our goal is to place the corners of the last layer in their correct position, regardless of their orientation.
    • Locate two adjacent corners that share a color other than the color of the top layer (other than yellow in our case).
    • Turn the top layer until these two corners are on the correct color side, facing you. For instance, if the two adjacent corners both contain red, turn the top layer until those two corners are on the red side of the cube. Note that on the other side, the two corners of the top layer will both contain the color of that side as well (orange in our example).

    • Determine whether the two corners of the front side are in their correct position, and swap them if needed. In our example, the right side is green, and the left side is blue. Therefore the front corner on the right must contain green, and the front corner on the left must contain blue. If it is not the case, you will need to swap those two corners with the following algorithm:
      Swap 1 and 2 :
      VLU_765.png
      HUR_929.png
      VLD_114.png
      FCW_465.png
      HUL_668.png
      FCCW_690.png
      VLU_765.png
      HUL_668.png
      VLD_114.png
      HUL_668.png
      HUL_668.png
      (2.a)
    • Do the same with the two corners at the back. Turn the cube around to place the other side (orange) in front of you. Swap the two front corners if needed.
    • As an alternative, if you notice that both the front pair and the back pair of corners need to be swapped, you can do it with only one algorithm (note the huge similarity with the previous algorithm):
      Swap 1 with 2 and 3 with 4 :
      VLU_765.png
      HUR_929.png
      VLD_114.png
      FCW_465.png
      HUL_668.png
      HUL_668.png
      FCCW_690.png
      VLU_765.png
      HUL_668.png
      VLD_114.png
      (2.b)
  2. 2
    Orient the corners. Locate each top color facelet of the corners (yellow in our case). You need to know only one algorithm to orient the corners:
    VRU_128.png
    HUL_668.png
    VRD_231.png
    HUL_668.png
    VRU_128.png
    HUL_668.png
    HUL_668.png
    VRD_231.png
    HUL_668.png
    HUL_668.png
    (3.a)
    • The algorithm will rotate three corners on themselves at once (from the side to the top). The blue arrows show which three corners you are turning, and in which direction (clockwise). If the yellow stickers are the way shown on the pictures and you perform the algorithm once, you should end up with the four yellow stickers on top :
    • It is also convenient to use the symmetrical algorithm (here the red arrows are counter-clockwise turns):
      VLU_765.png
      HUR_929.png
      VLD_114.png
      HUR_929.png
      VLU_765.png
      HUR_929.png
      HUR_929.png
      VLD_114.png
      HUR_929.png
      HUR_929.png
      (3.b)
      Symmetrical to (3.a)
    • Note: performing one of these algorithms twice is equivalent to performing the other. In some cases, you will need to perform the algorithm more than once :
    • Two correctly oriented corners :
      Rubik_LL_CO_11_540.png
      =
      Rubik_LL_CO_12_123.png
      =
      Rubik_LL_CO_13_185.png
      +
      Rubik_LL_CO_14_139.png
      Rubik_LL_CO_21_332.png
      =
      Rubik_LL_CO_22_161.png
      =
      Rubik_LL_CO_23_935.png
      +
      Rubik_LL_CO_24_58.png
      Rubik_LL_CO_51_809.png
      =
      Rubik_LL_CO_52_345.png
      =
      Rubik_LL_CO_53_343.png
      +
      Rubik_LL_CO_54_269.png
    • No correctly oriented corner :
      Rubik_LL_CO_31_931.png
      =
      Rubik_LL_CO_32_753.png
      =
      Rubik_LL_CO_33_614.png
      +
      Rubik_LL_CO_34_739.png
      Rubik_LL_CO_41_157.png
      =
      Rubik_LL_CO_42_249.png
      =
      Rubik_LL_CO_43_207.png
      +
      Rubik_LL_CO_44_611.png
    • More generally, apply (3.a) in those cases:
      Two correctly oriented corners :
      Rubik_LL_OC_2c_116.png
      No correctly oriented corner :
      Rubik_LL_OC_0c_870.png
  3. 3
    Permute the edges. You will need to know only one algorithm for this step. Check whether one or several edges are already in the proper position (the orientation does not matter at this point).
    • If all the edges are in their correct positions, you are done for this step.
    • If one edge only is correctly positioned , use the following algorithm :
      Rubik_LL_EP_11_863.png
      Rubik_LL_EP_12_216.png
      VMU_830.png
      HUR_929.png
      VMD_671.png
      HUR_929.png
      HUR_929.png
      VMU_830.png
      HUR_929.png
      VMD_671.png
      (4.a)
    • Or its symmetrical :
      Rubik_LL_EP_21_608.png
      Rubik_LL_EP_22_334.png
      VMU_830.png
      HUL_668.png
      VMD_671.png
      HUL_668.png
      HUL_668.png
      VMU_830.png
      HUL_668.png
      VMD_671.png
      (4.b)
      Symmetrical to (4.a)

      Note : performing twice one of these algorithms is equivalent to performing the other.
    • If all four edges are incorrectly positioned, perform one of the two algorithms once from any side. You will then have only one edge correctly positioned.
  4. 4
    Orient the edges. You will need to know two algorithms for that last step :
    Rubik_LL_EO_11_599.png
    Rubik_LL_EO_12_218.png
    Dedmore "H" Pattern
    VRD_231.png
    HML_291.png
    VRU_128.png
    VRU_128.png
    HMR_429.png
    HMR_429.png
    VRD_231.png
    HUL_668.png
    HUL_668.png
    VRU_128.png
    HMR_429.png
    HMR_429.png
    VRD_231.png
    VRD_231.png
    HMR_429.png
    VRU_128.png
    HUL_668.png
    HUL_668.png
    (5)
    Rubik_LL_EO_21_958.png
    Rubik_LL_EO_22_808.png
    Dedmore "Fish" Pattern
    FCW_465.png
    HML_291.png
    VRU_128.png
    VRU_128.png
    HMR_429.png
    HMR_429.png
    VRD_231.png
    HUL_668.png
    HUL_668.png
    VRU_128.png
    HMR_429.png
    HMR_429.png
    VRD_231.png
    VRD_231.png
    HMR_429.png
    VRU_128.png
    HUL_668.png
    HUL_668.png
    VRD_231.png
    FCCW_690.png
    (6)
    • Note the DOWN, LEFT, UP, RIGHT, sequence to most of the Dedmore "H" and "Fish" algorithms. You really have only one algorithm to remember since :
      (6) =
      FCW_465.png
      VRU_128.png
      + (5) +
      VRD_231.png
      FCCW_690.png
    • If all four edges are flipped, perform the "H" pattern algorithm from any side, and you will have to perform that algorithm one more time to solve the cube.
  5. 5
    Congratulations! Your cube should now be solved.
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Part 4
Part 4 of 4:

Notations

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  1. 1
    This is the key to the notations used. Familiarize yourself with these Notations .
    • The pieces that compose the Rubik's Cube are called Cubies , and the color stickers on the cubes are called facelets .
    • There are three types of Cubies:
      • The centers (or center pieces), at the center of each face of the Cube. There are six of them, each have one facelet, they always stay in the same place relative to each other.
      • The corners (or corner pieces), at the corners of the Cube. There are eight of them, and each have three facelets.
      • The edges (or edge pieces), between each pair of adjacent corners. There are 12 of them and each have 2 facelets.
    • Not all cubes have the same color schemes. The colors used for these illustrations is called BOY (because the Blue, Orange and Yellow faces are in clockwise order). Examine the positions of the centers relative to each other, as this is always your color scheme.
      • White opposes yellow;
      • Blue opposes green;
      • Orange opposes red;
      • Orange is to the right of blue if white is facing up.
  2. 2
    This article uses two different views for the Cube:
    • The 3D View , showing three sides of the Cube: the front (red), the top (yellow), and the right side (green). In Step 4, the algorithm (1.b) is illustrated with a picture showing the left side of the cube (blue), the front (red) and top (yellow).

      3D View
    • The Top View , showing only the top of the cube (yellow). The front side is at the bottom (red).

      Top View
  3. 3
    For the top view, each bar indicates the location of the important facelet. In the picture, the yellow facelets of the top back corners are on the top (yellow) side, while the yellow facelets of the top front corners are both located on the front side of the cube.

    Showing Yellow Facelets
  4. 4
    When a facelet is grey, it means that its color is not important at the moment.
  5. 5
    The arrows (blue or red) show what the algorithm will do. In the case of the algorithm (3.a) for instance, it will rotate the three corners on themselves as shown. If the yellow facelets are as drawn on the picture, at the end of the algorithm they will be on top.

    • The axis of the rotation is the big diagonal of the cube (from one corner to the corner all the way on the other side of the cube).
    • Blue arrows are used for clockwise turns (algorithm (3.a)).
    • Red arrows are used for counter-clockwise turns (algorithm (3.b), symmetrical to (3.a)).
  6. 6
    For the top view, the light blue facelets indicate that an edge is incorrectly oriented. In the picture, the edges on the left and right are both incorrectly oriented. This means that if the top face is yellow, the yellow facelets for those two edges are not on the top, but on the side.

    Showing Incorrectly Oriented Edges
  7. 7
    For the move notations it is important to always look at the cube from the front side.
    • Rotation of the front side.
      FCW_465.png
      FCCW_690.png
    • Rotation of one of the three vertical rows:
      VLU_765.png
      VLD_114.png
      VMU_830.png
      VMD_671.png
      VRU_128.png
      VRD_231.png
    • Rotation of one of the three horizontal rows:
      HUR_929.png
      HUL_668.png
      HMR_429.png
      HML_291.png
      HDR_354.png
      HDL_108.png
    • A few examples of moves:
      START
      FCW_465.png
      VMU_830.png
      VRD_231.png
      HUR_929.png
      Rubik_Initial_537.png
      Rubik_after_FCW_53.png
      Rubik_after_VMU_719.png
      Rubik_after_VRD_341.png
      Rubik_after_HUR_368.png
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Expert Q&A

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  • Question
    How do I solve a Rubik's cube while blindfolded?
    Timothy Huynh
    Rubik’s Cube Champion
    Timothy Huynh is a Rubik’s Cube Artist & Champion based in Tampa, Florida. Timothy has been solving Rubik's Cubes professionally since 2016 and became a Guinness World Record Holder with advanced Rubik's cube-solving skills. Timothy has a follower base of over 8.6 million YouTube subscribers and 124k followers on Instagram. Internet celebrities including David Dobrik and Simu Liu have sung his praises, and Pixar has deemed his work "incredible."
    Rubik’s Cube Champion
    Expert Answer
    First off, you have to memorize the cube, its positions, and how many spins each piece needs. What I did was use Quizlet flashcards, where each piece on the cube represents a letter, like a little puzzle. So, if someone says "C-T," you think "cat" because that's the word associated with those letters. Then comes the algorithm; each letter combo has its own moves to get the cube back in shape. My Quizlet setup was all about remembering these letter combos in my brain. Memorizing all those pieces and their spots takes a lot of time. It gets frustrating at times, but with enough practice and dedication, those letters become second nature. Just keep practicing, and soon enough, you'll be solving your cube easily while blindfolded.
  • Question
    How long does it typically take to solve a Rubik's cube?
    Community Answer
    If you are just starting out, aim to get down to two to three minutes. Then once you get some practice, go below two minutes. That is around where you should get after a few days of practice. Always try to be faster though -- the world record is 3.13 seconds!
  • Question
    What is the fastest way to solve a Rubik's cube?
    Community Answer
    The "layer method" described here is intended for beginners. There are faster methods that are more difficult to learn, the Fridrich method being the most popular among world-class speedcubers.
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      Tips

      • Progress further. Once you know all the algorithms, you may want to find faster ways to solve the Rubik's:
        • Solve the first layer corner along with its middle layer edge in one move. [1]
        • Learn algorithms to orient the last layer corners in the five cases where two (3.a/b) algorithms are necessary.
        • Learn algorithms to permute the last layer edges in the two cases where no edge is correctly positioned.
        • Learn the algorithm for the case where all last layer edges are flipped.
      • The layer method is just one of many methods out there. For instance, the Petrus method, which solves the cube in fewer moves, consists in building a 2×2×2 block, then expanding it to a 2×2×3, correcting edge orientation, building a 2×3×3 (two layers solved), positioning the remaining corners, orienting those corners, and finally positioning the remaining edges. [2]
      • Progress even further. For the last layer, if you want to solve the cube fast, you will need to do the last four steps two by two. For instance, permute and orient the corners in one step, then permute and orient the edges in one step. Or you can choose to orient all corners and edges in one step, then permute all corners and edges in one step. [3]
      Show More Tips

      Tips from our Readers

      The advice in this section is based on the lived experiences of wikiHow readers like you. If you have a helpful tip you’d like to share on wikiHow, please submit it in the field below.
      • Have faith in yourself and patience. Faith and patience will help you a lot as you're trying to solve this incredible puzzle. Impatience will just demotivate you.
      • Experience plays a huge role in being able to solve a rubik's cube. Keep on practicing and you'll get it! Eventually, you'll get faster and solve it more easily.
      • Practice solving one side first, then work on the other side. That’s how I got better.
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      Expert Interview

      Thanks for reading our article! If you’d like to learn more about rubik's cubes, check out our in-depth interview with Timothy Huynh .

      References

      1. https://www.speedcubing.com/f2l.html
      2. https://lar5.com/cube/
      3. https://www.speedcubing.com/final_layer_edges.html
      4. Speedcubing.com - algorithms, videos, cube solvers, world records and ranking.
      5. Solution for solving the Rubik's Cube step by step illustrated method.
      6. Petrus Method illustrated with java animations.

      About This Article

      Article Summary X

      Solving a Rubik's cube is a difficult skill that will take time to master, so it's important not to get discouraged when you begin. Start by learning the notation that is used to describe the moves you will perform and the sides of the cube. You should also learn the different types of pieces on the cube: edge pieces, corner pieces, and center pieces. By identifying patterns and applying specific sequences of moves, you will be able to solve the cube layer by layer. Start with the edges and corners of the first layer, and then solve the edges of the second layer. Next, orient and then permute the pieces of the last layer. With practice, you will be able to solve the cube in less than a minute using this method. If you want to learn how to read Rubik's cube notations, keep reading the article!

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