Re: trying to parameterize solutions for Pythagorean ratios and Diophant

Bill Allombert on Sun, 03 Mar 2024 13:41:30 +0100

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Re: trying to parameterize solutions for Pythagorean ratios and Diophantine m-tuples

To: pari-users@pari.math.u-bordeaux.fr
Subject: Re: trying to parameterize solutions for Pythagorean ratios and Diophantine m-tuples
From: Bill Allombert <Bill.Allombert@math.u-bordeaux.fr>
Date: Sun, 3 Mar 2024 13:41:03 +0100
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On Sat, Mar 02, 2024 at 05:22:15PM -0800, American Citizen wrote:
> (3)    30*q*p^3 + 144*q^2*p^2 - 30*q^3*p = r^2 for p,q,r in Z
> 
> This is almost an homogeneous quadratic equation in p,q made a square, but
> the product of the powers = 3
> for each binomial term on the left.
> 
> Is there a parametric solution for (2) given m,n or (3) ?

Divide 3) by q^4 and set x=p/q, y =r/q^2, you get
y^2 = 30*x^3 + 144*x^2-30*x

then set y = Y/30  x = X/30

So 

Y^2 = X^3 + 144*X^2 - 900*X

which is a rank-2 elliptic curve with full 2-torsion,
so there are a lot of solutions.

? E=ellinit([0,144,0,-900,0])
? elltors(E)
%8 = [4,[2,2],[[-150,0],[0,0]]]
? ellrank(E)
%9 = [2,2,0,[[-90,720],[45,585]]]

For example [-90,720] is [p,q] = [3,-1], 
and         [45,585]  is [p,q] = [3, 2] 

and ellmul(E,[-90,720],5)
gives [-1724297003000010/567013106089369,-858234297395033146517040/13501737061684979934653]
leads to [57476566766667, -567013106089369]

Cheers,
Bill.

Follow-Ups:
- Re: trying to parameterize solutions for Pythagorean ratios and Diophantine m-tuples
  - From: American Citizen <website.reader3@gmail.com>
- Re: trying to parameterize solutions for Pythagorean ratios and Diophantine m-tuples
  - From: American Citizen <website.reader3@gmail.com>

References:
- trying to parameterize solutions for Pythagorean ratios and Diophantine m-tuples
  - From: American Citizen <website.reader3@gmail.com>

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