it is a series of turns you do on a Rubik's cube. EXAMPLE: the algorithm "R Ui D" means turn the right side clockwise, turn the upper side counterclockwise, and turn the "Down" side clockwise. the I means inverted, or counterclockwise.
3The cubed root of 27 is 33This is because 3x3x3 =3x3 = 9.9x3 = 27.So your answer is 3
DI,LI,UI,and RI mean down inverted, Left inverted, up inverted, and right inverted (DI you turn the downside or bottom of the cube counter clockwise, LI means you turn the left side of the cube counter clockwise, UI means you turn the top of the cube counter clockwise, and RI means that you turn the right side of the cube counterclockwise.) so if one of the notations has an I after it, that means that you must turn that side of the cube counter clock wise.
An algorithm is the process by which you solve a problem
a note on numerically unstable algorithm
24 times 21= in algorithm standard
it means 3x3x3, multiplied by itself 3 times
Do you mean "Why might a parallel line algorithm be needed?" or "What properties does a parallel line algorithm need to have?".
This type of algorithm is commonly used in n dimensional clustering applications. This mean is commonly the simplest to use and a typical algorithm employing the minimum square error algorithm can be found in McQueen 1967.
43,252,003,274,489,856,000. only one of these, of course, is the solved one. and interestingly, you can get from any of these over 43 quintillion permutations to any other in 20 turns or less, so theoretically, the rubiks cube could always be solved in 20 moves or less. However, this has not been achieved by a human.
If by cube you mean perfect cube (a cube of an integer), then no, and the nearest perfect cube is 81.
it is a processor of the work
If you mean "Algorithm" an algorithm is simply a set of rules, or steps to complete, which are needed to solve a particular problem. An example would be a recipe in a cookbook. A recipe is an algorithm.