If you’re looking for a magic cube solution 3×3, you’re in the right place. This article will give you some Algorithms to solve the white corners, complete the top layer, and get a yellow cross. The first step is to rotate the top face of the cube so that you have two edges that need to be swapped with each other.
Algorithms to solve the white corners
A magic cube has two sides, one of which is white and the other two are different colors. To solve the white corner puzzle, rotate the bottom corner piece so that it is lower on the white face. Then, you can rotate the upper corner piece and position it at the top-right front position.
There are 2 algorithms for this problem. The first one is intuitive. It positions the pieces in the correct orientation, so that they face each other. The second algorithm tries to solve the white corner of a cube by solving the corner pieces that are in the wrong orientation.
Another algorithm has two steps to solve the white corner. The last two steps of the algorithm are the reverse of the first two. This helps the player memorize the steps. The algorithm can be applied with the right or left hand, depending on your preference.
Algorithms to complete the second layer
There are two different algorithms for solving the second layer of the magic cube. The first is used to rotate the cube’s lateral edges. The other one is used to rotate the cube’s lateral edges without rotating the cube. In either case, you need to solve the last four corners of the cube. The goal of the algorithm is to get all four corner pieces to the right spot.
For example, imagine a situation where the purple-blue piece is in the correct starting position and needs to rotate to the right to the red face. The algorithm to rotate the red-green piece will depend on the upper color of the starting two-colored piece.
Algorithms to get a yellow cross
In the case of a magic cube, you can apply one of three algorithms to get a yellow cross on the top layer. First, you need to move the corner piece on the top layer to the left. After that, you need to move the edge piece to the right. Finally, you should move the corner pieces on the bottom layer to the left and right positions of the cube.
The second algorithm is the same but for solving a yellow corner. This algorithm requires that you rotate the top face to align two adjacent yellow panels. Then, you rotate the U layer to check if the yellow edges are in the solved position. Repeat this process until you get the yellow cross on the top layer.
Rotate the top layer until you find two edges that need to be swapped with each other
The first step in solving this puzzle is to rotate the top layer until you find two edges that are swapped each other. For this step, make sure that the Yellow faces up. Now, you need to swap the right and left edge pieces.
The next step in solving this puzzle is to swap the edges that are in the top and bottom layers. It’s easiest to swap two edges in the first layer if you have two pairs of edges that are in the top and bottom layers and are adjacent to each other. This step is very simple.
After you’ve done this, the next step is to identify the edges that you need to swap. Now, turn the Up face and see which edges line up with the center pieces of the two colours. Then, swap the edges that don’t line up with each other. You may have to repeat the process a few times until you find the edges that need to be swapped.
Positioning the white corners in the correct place
The first step in a magic cube solution is to position the white corners correctly. There are four possible positions for the four corner pieces. Each position has two or four pieces in it. It is not necessary for all four pieces to be in the same place, though. For instance, the corner pieces on side 1 may be opposite each other. To get the correct placement of all four corner pieces, turn the cube in the UFR position and move the corner piece.
The next step is to find the single layer with both corners. This layer can be the back or down face. Then, twist the bottom layer back into place. You should end up with a solved cube.
