dailysudoku.com

[dcole]

I was done the math and have found the 9 X 9 to have 201 ways the numbers can be arranged.

Is this right? If not, I will register and post a pic of the math

[Guest]

there are actually 6561 different ways to arange the numbers. you multiply 81 * 81.

[dotdot]

[Guest]

If you think about it, we only need to work out the number of ways that 9 numbers can be re-arrange in a row (let say row1) because the rest of the numbers are dictated by the numbers in row 1.

Therefore there are actually, in maths term, 9 factorial ways or
9!= 9x8x7x....x2x1=362880 ways to arrange the numbers in a 9x9 grid.

Cheers
Derek.

[dotdot]

Any advances on 362880?

You can reach an even bigger number by clicking on 'more' in my previous post.

[Guest]

Dotdot, thanks for pointing out the link but despite reading the article I still think the answer is 9!
Sorry to have sounded a bit stubborn but they did admit in the article that there were duplications!
Simple check is if you try out a 2x2, 3x3 or 4x4... you will get 2!, 3! or 4! respectively. ie. 2 ways for 2x2 grid, 6 ways for a 3x3, 24 ways for 4x4 and so on...9! for a 9x9.

Derek.

[David Bryant]

[Guest]

David,

Silly me! Thanks for pointing this out. Now I knew that 9! can't be right but what is the right answer?
Is 9! * 2 * 6^8 = 1,218,998,108,160 quoted in your post correct or 6,670,903,752,021,072,936,960 quoted in dotdot's post correct? or neither?

Interesting! I will spend sometimes on these ..........

Derek.

[David Bryant]

Hi, Derek!

I'm not sure that the big number (6,670,...) is correct. The other number I quoted (9! * 2 * 6^8) is not supposed to be the number of valid Sudoku solutions there are -- it's the number of ways a given Sudoku grid can be transformed by permuting the digits, or the columns within a 9x3 band, or the rows within a 3x9 band, etc. Notice that not every starting grid will give 1,218,998,108,160 distinct solutions when the symmetry operations are applied to it -- the starting grid may have some symmetrical features, so that it is its own mirror image, for instance. In any event, I'm sure the total number of Soduko grids is a very big number -- more like 10^20 or 10^21 than like 10^6, or even 10^12.

[smith55js]

I ran across an interesting mathematical proof. It does require a bit of advanced understanding of math to follow along, but the number reached is quite large.

http://www.shef.ac.uk/~pm1afj/sudoku/sudoku.pdf

[David Bryant]

[someone_somewhere]

Hi David,

For me, if the algorithm and the source programs together with the running job are presented, it is part of the demonstration and it we can follow it. So, it is acceptable for me.
Same with the 4 color problem. Parts are done by computer programs which, at the end, are only extensions of our thinking.

see u,

[ritz]

hey, im not exactly a mathematical whiz. im 17 and i barely made it through my 11th grade math class lol. anyway, the way i thought about it, there should be 3265920. the way i looked at it, one row of cells across, is 9!.

basically, if u look at in horizontal rows, the first box, has 9 possibilies, the second, 8, third 7, so on and so forth, hence the 9!

then, there are 9 rows of this, which would make it 9! (9).

i think that would cover everything, because, even though the verticle rows, are also 9!, i think multiplying across already has each accounted for. but if im wrong there, then i figure it would be, that same 9! (9) for the verticle rows, which would in essense be the original number squared, so 10666233446400.

i have no idea if any of this is even close to being right, seems logical to me. its prolly wrong, but maybe itll give one of you real math whizzes something to think about