> > Q2 Show that every even number greater than 2 is the sum of two
> > primes
Dr Fairman wrote:
> Dear Stuart,
> I promised to perform only one question for free and you put two.
> Below is Q2 solution. If you need Q1 solution, contact me privately
> and we shall negotiate on my fee rate.
> You
Dubinse <[EMAIL PROTECTED]> wrote in sci.stat.edu:
>The story is about six
> students who go off on a trip and get drunk the weekend before
>their statistics final.
...
>caught in a storm and their car blew a tire and ended up
>in a ditch and they needed brief hospitalization etc.
...
> The one
Which US graduate universities are considered to be the strongest in
the area of stochastic processes and time series analysis? Thank you
in advance.
=
Instructions for joining and leaving this list and remarks about
the problem of
In article <[EMAIL PROTECTED]>,
Donald Burrill <[EMAIL PROTECTED]> wrote:
>"The story is about six students who ... The instructor ... tells them
>to report the next day for an exam with only one question. If they all
>get it right they all pass. They were seated at corners of the room and
>
"Dr. Fairman" <[EMAIL PROTECTED]> wrote in message
[EMAIL PROTECTED]">news:[EMAIL PROTECTED]...
> Dear Stuart,
> I promised to perform only one question for free and you put two.
> Below is Q2 solution. If you need Q1 solution, contact me privately
> and we shall negotiate on my fee rate.
> You n
Please subscribe me to your list on
Statistics
"Stuart Gall" <[EMAIL PROTECTED]> wrote in message
news:<9q297s$hek$[EMAIL PROTECTED]>...
> Yes Dr Fairman,
> I have a DL assignment
>
> Q1 Write a formula for the number of non abelian groups of order N
> Q2 Show that every even number greater than 2 is the sum of two primes
>
> You said my fi
6 students, 4 tires:
The probability that they all choose the same tire [doesn't matter which] is
(1/4)^5 = 1/1024.
N students, M tires:
(1/M)^(N-1)
(The answer with ^6 or ^N answers a different question: what is the
probability that they all choose the front left-hand tire?)
Fergus
On Fri, 12 Oct 2001, Desmond Cheung (of Simon Fraser University,
Vancouver, BC) wrote:
> Is there any mathematical analysis to find how much the two peaks stand
> out from the other data?
Hard to answer, not knowing where you're coming from with the question.
Any answer depends on the model
"The story is about six students who ... The instructor ... tells them
to report the next day for an exam with only one question. If they all
get it right they all pass. They were seated at corners of the room and
could not communicate."
Must have been an interesting room, with six corners
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