Author 
Message 
Gerry science forum beginner
Joined: 11 Nov 2005
Posts: 23

Posted: Tue Jul 18, 2006 10:45 am Post subject:
Primality & Factoring



Two questions relating the following function:
N(r,x,y,z)=r^2+(z^2y+(2z+1)x)r+z^2(z^21)y^2/4+z(z^2+(z1)/2)yx+z(z+1)x^2
1) How can i determine solutions for variables r,x,y,z if N is given?
2) For which range of the variables r,x,y,z can N be prime?
Any comments are welcome. 

Back to top 


Gerry science forum beginner
Joined: 11 Nov 2005
Posts: 23

Posted: Tue Jul 18, 2006 12:57 pm Post subject:
Re: Primality & Factoring



For example
493=N(r,x,y,z)=N(5,4,4,2)=N(9,8,4,1)=N(11,6,6,1)=N(17,12,8,0)
( Variables r,x,y,z >0 and integer are of interest) 

Back to top 


Dave Rusin science forum Guru
Joined: 25 Mar 2005
Posts: 487

Posted: Tue Jul 18, 2006 5:26 pm Post subject:
Re: Primality & Factoring



In article <1153219509.405937.291020@i42g2000cwa.googlegroups.com>,
Gerry <GerryMrt@gmail.com> wrote:
Quote:  Two questions relating the following function:
N(r,x,y,z)=r^2+(z^2y+(2z+1)x)r+z^2(z^21)y^2/4+z(z^2+(z1)/2)yx+z(z+1)x^2

i.e. 4N = (2r + z^2y+2xz+x )^2 (x + yz)^2
Quote:  1) How can i determine solutions for variables r,x,y,z if N is given?

Factor N = pq, so 4N = u^2  v^2 with u = p+q, v = pq. Then for
any y,z let x = p  q  yz, r = (p+q  (x+2xz+yz^2))/2 (which
turns out to be integral).
Quote:  2) For which range of the variables r,x,y,z can N be prime?

This requires q to be in {1, 1, N, N}. For each fixed q the "range"
is parameterized by the (y,z) pairs as above.
Quote:  Any comments are welcome.

Wrong newsgroup. Try sci.math.
dave 

Back to top 


Gerry science forum beginner
Joined: 11 Nov 2005
Posts: 23

Posted: Thu Jul 20, 2006 4:12 pm Post subject:
Re: Primality & Factoring



1) Interesting approach.
Would it be possible to create a faster algorithm than normal factoring
by trying to fit p and q as follows:
N=pq, p=yz^2/2+(xy/2)z+r , q=y(z+1)^2/2+(xy/2)(z+1)+r
Gerry
Sorry about the wrong group. 

Back to top 


Google


Back to top 



The time now is Sun Apr 21, 2019 12:52 am  All times are GMT

