Date: May 24, 2013 1:43 PM
Author: Pubkeybreaker
Subject: Re: First Proof That Infinitely Many Prime Numbers Come in Pairs

On May 24, 3:22 am, Graham Cooper <grahamcoop...@gmail.com> wrote:
> On May 24, 3:46 pm, quasi <qu...@null.set> wrote:
>
>
>
>
>

> > joshipura wrote:
> > >OK. So here goes changed script for review:
>
> > >"For years mathematicians are struggling to prove that they
> > >will always find larger and larger cases of p where p and p+2
> > >both are primes.

>
> > >Someone recently proved that
> > >**
> > >there are as many prime numbers p and q less than 70,000,000
> > >apart as you want
> > >**

>
> > Yes, In a sense.
>
> > The phrase "as many as you want" can be interpreted as
> > "infinitely many" (provided you always want more and more).

>
> Incorrect if you can't actually calculate as many as you want.
>
> Can you tell me a factor of any composite number?
>
> 3506641086599522334960321627880596993888147560566
> 70275244851438515265106048595338339402871505719094
> 41798207282164471551373680419703964191743046496589
> 27425623934102086438320211037295872576235850964311
> 05640735015081875106765946292055636855294752135008
> 52879416377328533906109750544334999811150056977236
> 890927563
>
> Herc- Hide quoted text -
>
> - Show quoted text -


It's divisible by 13401