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2014-01-03T16:23:54Z

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[[File:5×5×5 size comparison.jpg|thumb|right|250px|Official Professor's Cube (left) V-Cube 5 (center) and Eastsheen 5×5×5 (right).]]
The '''Professor's Cube''' is a mechanical [[puzzle]], a 5×5×5 version of the [[Rubik's Cube]]. It has qualities in common with both the original 3×3×3 Rubik's Cube and the 4×4×4 [[Rubik's Revenge]], and knowing how to solve either can help when working on the 5×5×5 cube.

==Naming==
[[File:V-Cube 5 in Package.JPG|thumb|right|The V-Cube 5 in original packaging.]]
Early versions of the 5×5×5 cube sold at [[Barnes & Noble]] were marketed under the name "Professor's Cube," but currently, Barnes and Noble sells cubes that are simply called "5×5." Mefferts.com offers a limited edition version of the 5×5×5 cube called the Professor's Cube. This version has colored tiles rather than stickers.<ref>[http://www.mefferts.com/products/details.php?lang=en&category=13&id=238 Meffert's Professor's Cube]</ref> Verdes Innovations sells a version called the V-Cube 5.<ref>[http://www.v-cubes.com/prod_info/v-cube5.php Verdes' Innovations V-Cube 5 page]</ref>

==Workings==
[[File:Professors cube.jpg|200px|thumb|left|Scrambled.]]
The original Professor's Cube design by Udo Krell works by using an expanded 3×3×3 cube as a mantle with the center edge pieces and corners sticking out from the spherical center of identical mechanism to the 3×3×3 cube. All non-central pieces have extensions that fit into slots on the outer pieces of the 3×3×3, which keeps them from falling out of the cube while making a turn. The fixed centers have two sections (one visible, one hidden) which can turn independently. This feature is unique to the original design.<ref name="Krell patent">[http://www.freepatentsonline.com/4600199.html United States Patent 4600199]</ref>

The [[Eastsheen]] version of the puzzle uses a different mechanism. The fixed centers hold the centers next to the central edges in place, which in turn hold the outer edges. The non-central edges hold the corners in place, and the internal sections of the corner pieces do not reach the center of the cube.<ref name="Eastsheen patent">[http://www.freepatentsonline.com/6129356.html United States Patent 6129356]</ref>

The V-Cube 5 mechanism, designed by Panagiotis Verdes, has elements in common with both. The corners reach to the center of the puzzle (like the original mechanism) and the center pieces hold the central edges in place (like the Eastsheen mechanism). The middle edges and center pieces adjacent to them make up the supporting frame and these have extensions which hold rest of the pieces together. This allows smooth and fast rotation and creating arguably the fastest and most durable version of the puzzle. Unlike the original 5×5×5 design, the V-Cube 5 mechanism was designed with [[speedcubing]] in mind.<ref name="Verdes patent">[http://www.freepatentsonline.com/y2007/0057455.html United States Patent 20070057455]</ref>
<gallery>
File:Professor's Cube disassembled.jpg|A disassembled Professor's Cube.
File:V-Cube 5 disassembled.jpg|A disassembled V-Cube 5.
File:Disassembled Eastsheen 5x5x5.jpg|A disassembled Eastsheen cube.
</gallery>

===Durability===
[[File:5×5×5 misaligned.jpg|thumb|right|150px|An original cube with a misaligned center. This cannot occur on the Eastsheen or V-Cube puzzles.]]
The original Professor's Cube is inherently more delicate than the 3×3×3 Rubik's Cube because of the much greater number of moving parts. Because of the fragile design the Professor's Cube is not suitable for [[speedcubing]]. Applying excessive force to the cube when twisting it may result in broken pieces.<ref>[http://www.rubiks.com/Shop/Products/Rubiks%205x5%20Cube%20Hex%20Packaging.aspx Rubi's 5×5×5 Cube notice section]</ref> Both the Eastsheen 5×5×5 and the V-Cube 5 are designed with different mechanisms in an attempt to remedy the fragility of the original design.

==Permutations==
There are 98 pieces on the exterior of the cube: 8 corners, 36 edges, and 54 centers (48 movable, 6 fixed).

Any [[permutation]] of the corners is possible, including odd permutations, giving [[factorial|8!]] possible arrangements. Seven of the corners can be independently rotated, and the orientation of the eighth depends on the other seven, giving 37 combinations.

There are 54 centers. Six of these (the center square of each face) are fixed in position. The rest consist of two sets of 24 centers. Within each set there are four centers of each color. Each set can be arranged in 24! different ways. Assuming that the four centers of each color in each set are indistinguishable, the number of permutations of each set is reduced to 24!/(4!6) arrangements, all of which are possible. The reducing factor comes about because there are 4! ways to arrange the four pieces of a given color. This is raised to the sixth power because there are six colors. The total number of permutations of all movable centers is the product of the permutations of the two sets, 24!2/(4!12).

The 24 outer edges cannot be flipped, since the interior shape of those pieces is asymmetrical. Corresponding outer edges are distinguishable, since the pieces are mirror images of each other. Any permutation of the outer edges is possible, including odd permutations, giving 24! arrangements. The 12 central edges can be flipped. Eleven can be flipped and arranged independently, giving 12!/2 × 211 or 12! × 210 possibilities (an odd permutation of the corners implies an odd permutation of the central edges, and vice versa, thus the division by 2). There are 24! × 12! × 210 possibilities for the inner and outer edges together.

This gives a total number of permutations of
:<math> \frac{8! \times 3^7 \times 12! \times 2^{10} \times 24!^3}{4!^{12}} \approx 2.83 \times 10^{74}</math>

The full number is precisely 282 870 942 277 741 856 536 180 333 107 150 328 293 127 731 985 672 134 721 536 000 000 000 000 000 possible permutations<ref name="Cubic Circular">[http://www.jaapsch.net/puzzles/cubic3.htm#p18 Cubic Circular Issues 3 & 4] [[David Singmaster]], 1982</ref> (about 283 duodecillion on the [[names of large numbers|long scale]] or 283 tresvigintillion on the short scale).

Some variations of the Professor's Cube have one of the center pieces marked with a logo, which can be put into four different orientations. This increases the number of permutations by a factor of four to 1.13×1075, although any orientation of this piece could be regarded as correct. By comparison, the number of [[Observable_universe#Matter_content | atoms in the observable universe]] is estimated at about 1080. Other variations increase the difficulty by making the orientation of all center pieces visible. An example of this is shown below.

==Solution==
[[File:Rubik szétszedve.jpg|thumb|right|150px|An original Professor's Cube with many of the pieces removed, showing the 3×3×3 equivalence of the remaining pieces.]]
[[File:3cubes.jpg|thumb|right|150px|Center is an EastSheen 5×5×5 cube with multicolored stickers, which increase difficulty.]]
People able to rapidly solve puzzles like this usually favour the reduction method of grouping similar edge pieces into solid strips, and centers into one-colored blocks. This allows the cube to be quickly solved with the same methods one would use for a 3×3×3 cube. As illustrated to the right, the fixed centers, middle edges and corners can be treated as equivalent to a 3×3×3 cube. As a result, the parity errors sometimes seen on the 4×4×4 cannot occur on the 5×5×5 unless the cube has been tampered with.

Another frequently used strategy is to solve the edges of the cube first. The corners can be placed just as they are in any previous order of cube puzzle, and the centers are manipulated with an algorithm similar to the one used in the 4×4×4 cube.

A less frequently used strategy is to solve one side and one rim first, then the 2nd, 3rd and 4th rim, and finally the last side and rim. That is, like building a four floor building. First the basement, then each floor, and finally the roof.<ref>[http://www.rubiks-cube.org Rubiks-Cube.org]</ref>

==World records==
The current record for solving the Professor's Cube in an official competition is 50.50 seconds, set by [[Feliks Zemdegs]] from Australia, at the Australian Nationals 2013. He also holds the current world record for an average of five solves, 55.33 seconds, set at the Melbourne Cube Day 2013.<ref>[http://worldcubeassociation.org/results/regions.php?regionId=&eventId=555&years=&mixed=Mixed World Cube Association Official Results - 5x5x5 Cube]</ref> The record for solving a 5x5x5 cube blindfolded is 6 minutes, 6.41 seconds, set by Marcell Endrey of Hungary at the World Championship 2013.<ref>[http://worldcubeassociation.org/results/regions.php?regionId=&eventId=555bf&years=&mixed=Mixed World Cube Association Official Results - 5x5x5 Cube Blindfolded]</ref>

==See also==
* [[Pocket Cube]] – A 2×2×2 version of the puzzle
* [[Rubik's Cube]] – The 3×3×3 original version of this puzzle
* [[Rubik's Revenge]] – A 4×4×4 version of the puzzle
* [[V-Cube 6]] - A 6×6×6 version of the puzzle
* [[V-Cube 7]] - A 7×7×7 version of the puzzle
* [[Combination puzzles]]

==References==
{{Reflist}}

==External links==
* [http://www.bigcubes.com/5x5x5/5x5x5.html How to solve Professor's Cube]
* [http://wiki.playagaingames.com/tiki-index.php?page=5x5x5+Cube+Solution Professor's Cube text solution]
* [http://www.rubiks-zauberwuerfel.de Professor's Cube interactive solution]

{{Rubik's Cube}}

[[Category:Rubik's Cube]]
[[Category:Combination puzzles]]
[[Category:Mechanical puzzles]]
[[Category:Puzzles]]

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