Bending stiffness

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Bhaskara's Lemma is an identity used as a lemma during the chakravala method. It states that:

Nx2+k=y2N(mx+yk)2+m2Nk=(my+Nxk)2

for integers m,x,y,N, and non-zero integer k.

Proof

The proof follows from simple algebraic manipulations as follows: multiply both sides of the equation by m2N, add N2x2+2Nmxy+Ny2, factor, and divide by k2.

Nx2+k=y2Nm2x2N2x2+k(m2N)=m2y2Ny2
Nm2x2+2Nmxy+Ny2+k(m2N)=m2y2+2Nmxy+N2x2
N(mx+y)2+k(m2N)=(my+Nx)2
N(mx+yk)2+m2Nk=(my+Nxk)2.

So long as neither k nor m2N are zero, the implication goes in both directions. (Note also that the lemma holds for real or complex numbers as well as integers.)

References

  • C. O. Selenius, "Rationale of the chakravala process of Jayadeva and Bhaskara II", Historia Mathematica, 2 (1975), 167-184.
  • C. O. Selenius, Kettenbruch theoretische Erklarung der zyklischen Methode zur Losung der Bhaskara-Pell-Gleichung, Acta Acad. Abo. Math. Phys. 23 (10) (1963).
  • George Gheverghese Joseph, The Crest of the Peacock: Non-European Roots of Mathematics (1975).

External links

Template:Number-theoretic algorithms