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Author: lievenlb

hints for micro-sudoku

As a
quick reply to last posts comment :

Another
interesting question: How many clues (numbers allready in the grid) do
we need a Sudoku puzzle to have in the beginning in order to obtain a
unique solution? Comment by A.R.Ray

At
least one student proved that in micro-Sudoku (on a 4×4 grid)
one needs just 4 hints to get any unique solution (and that 4 is
minimal). It is an application of the fact that the micro-Sudoku group
acts on the set of all solutions with just two orbits so one needs to
check just these two solutions…

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micro-sudoku

One
cannot fight fashion… Following ones own research interest is a
pretty frustrating activity. Not only does it take forever to get a
paper refereed but then you have to motivate why you do these things
and what their relevance is to other subjects. On the other hand,
following fashion seems to be motivation enough for most…
Sadly, the same begins to apply to teaching. In my Geometry 101 course I
have to give an introduction to graphs&groups&geometry. So,
rather than giving a standard intro to graph-theory I thought it would
be more fun to solve all sorts of classical graph-problems (Konigsberger
bridges
, Instant
Insanity
, Gas-
water-electricity
, and so on…) Sure, these first year
students are (still) very polite, but I get the distinct feeling that
they think “Why on earth should we be interested in these old
problems when there are much more exciting subjects such as fractals,
cryptography or string theory?” Besides, already on the first day
they made it pretty clear that the only puzzle they are interested in is
Sudoku.
Next week I’ll have to introduce groups and I was planning to do
this via the Rubik
cube
but I’ve learned my lesson. Instead, I’ll introduce
symmetry by considering micro-
sudoku
that is the baby 4×4 version of the regular 9×9
Sudoku. The first thing I’ll do is work out the number of
different solutions to micro-Sudoku. Remember that in regular Sudoku
this number is 6,670,903,752,021,072,936,960 (by a computer search
performed by Bertram
Felgenhauer
). For micro-Sudoku there is an interesting
(but ratther confused) thread on the
Sudoku forum
and after a lot of guess-work the consensus seems to be
that there are precisely 288 distinct solutions to micro-Sudoku. In
fact, this is easy to see and uses symmetry. The symmetric group $S_4$
acts on the set of all solutions by permuting the four numbers, so one
may assume that a solution is in the form where the upper-left 2×2
block is 12 and 34 and the lower right 2×2 block consists of the
rows ab and cd. One quickly sees that either this leeds to a
unique solution or so does the situation with the roles of b and c
changed. So in all there are $4! \\times \\frac{1}{2} 4!=24 \\times 12 =
288$ distinct solutions. Next, one can ask for the number of
_essentially_ different solutions. That is, consider the action
of the _Sudoku-symmetry group_ (including things such as
permuting rows and columns, reflections and rotations of the grid). In
normal 9×9 Sudoku this number was computed by Ed Russell
and Frazer Jarvis
to be 5,472,730,538 (again,heavily using the
computer). For micro-Sudoku the answer is that there are just 2
essentially different solutions and there is a short nice argument,
given by ‘Nick70′ at the end of the above mentioned thread. Looking a bit closer one verifies easily that the
two Sudoku-group orbits have different sizes. One contains 96 solutions,
the other 192 solutions. It will be interesting to find out how these
calculations will be received in class next week…

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the Oxford murders

Set in the
spring and summer of 1993, the Oxford
Murders
by Guillermo Martinez is
a crime-story about a series of murders commited in Oxford. At a certain
moment one even conjectures that the next victim will be Andrew Wiles on the eve of delivering his extra two talks at
a Cambridge seminar and that as a consequence the proof of
Fermat’s last theorem will be lost for another three
centuries… At that particular point in the book, I stopped looking
for the killer and just enjoyed the story (true or false?) of a bus
chartered by the Oxford Maths department to go to Cambridge to witness
the final two talks whereas the betting-rates were still 6 to 1
_against_ Wiles the night before. There are more hilarious
stories about a Russian PostDoc in Oxford, claiming that someone stole
his ideas on Fermat’s theorem and got a Fields Medal for it…
And so on, and so on, probably it gives a pretty accurate picture of the
life of many PostDocs travelling from one place to another to survive
(although, clearly Oxford is not just a place like any other… some
may argue). All in all, it is a rather enjoyable read. It is a
bit short (197 pages) so that there are not that many likely suspects
around to guess the two (!) outcomes way ahead. In fact, in the end I
wasn’t that much interested in the identity of the murderer but
rather in some of the side-line suicide stories. Sure, I was aware that
Taniyama and Turing commited suicide
but whereas I did know Taniyama’s method (and I notice that on the
web one is very cautious about it, so I will not give it away
here…) I never heard that Turing ate an apple laced with cyanide.
Further, I didn’t know of Taniyama’s ‘mysterious
suicide note’. So I looked it
up
. It seems that he left a three page note, most of it concerned
with specifying dates when his books should be returned to the library,
indications on how far he got with certain courses and plenty of
apologies. Still, there are these mysterious sentences which some people
used to cook up a conspiracy theory

‘’Until yesterday I have had no definite
intention of killing myself. But more than a few must have noticed I
have been tired both physically and mentally. As to the cause of my
suicide, I don’t quite understand it myself, but it is not the
result of a particular incident, nor of a specific matter. Merely may I
say, I am in the frame of mind that I lost confidence in my future.
There may be some to whom my suicide will be troubling or a blow to a
certain degree. I sincerely hope that this incident will cast no dark
shadow over the future of that person. At any rate I cannot deny that
this is a kind of betrayal, but please excuse it as my last act in my
own way, as I have been doing all my
life.\’’

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