proposed by the physicist Lee W. Jacobi and the mathematician Daniel J. Madden in 2008.[1][2] The variables a, b, c, and d can be any integers, positive, negative or 0.[a] Jacobi and Madden showed that there are an infinitude of solutions of this equation with all variables non-zero.
The Jacobi–Madden equation represents a particular case of the equation
first proposed in 1772 by Leonhard Euler who conjectured that four is the minimum number (greater than one) of fourth powers of non-zero integers that can sum up to another fourth power. This conjecture, now known as Euler's sum of powers conjecture, was a natural generalization of the Fermat's Last Theorem, the latter having been proved for the fourth power by Pierre de Fermat himself.
Noam Elkies was first to find an infinite series of solutions to Euler's equation with exactly one variable equal to zero, thus disproving Euler's sum of powers conjecture for the fourth power.[3]
However, until Jacobi and Madden's publication, it was not known whether there exist infinitely many solutions to Euler's equation with all variables non-zero. Only a finite number of such solutions was known.[4][5] One of these solutions, discovered by Simcha Brudno in 1964,[6] yielded a solution to the Jacobi–Madden equation:
^ abJaroslaw Wroblewski Database of solutions to the Euler's equation
^Simcha Brudno (1964). "A further example of A4 + B4 + C4 + D4 = E4". Mathematical Proceedings of the Cambridge Philosophical Society. 60 (4): 1027–1028. doi:10.1017/S0305004100038470. MR 0166151.
^Seiji Tomita, New solutions of a^4 + b^4 + c^4 + d^4 = (a+b+c+d)^4, 2015.
Notesedit
^In fact, any nontrivial solution must include both a positive and negative value.
January 01, 1970
jacobi, madden, equation, diophantine, equation, displaystyle, proposed, physicist, jacobi, mathematician, daniel, madden, 2008, variables, integers, positive, negative, jacobi, madden, showed, that, there, infinitude, solutions, this, equation, with, variable. The Jacobi Madden equation is the Diophantine equation a 4 b 4 c 4 d 4 a b c d 4 displaystyle a 4 b 4 c 4 d 4 a b c d 4 proposed by the physicist Lee W Jacobi and the mathematician Daniel J Madden in 2008 1 2 The variables a b c and d can be any integers positive negative or 0 a Jacobi and Madden showed that there are an infinitude of solutions of this equation with all variables non zero Contents 1 History 2 Approach 3 Other initial solutions 4 See also 5 References 6 NotesHistory editThe Jacobi Madden equation represents a particular case of the equation a 4 b 4 c 4 d 4 e 4 displaystyle a 4 b 4 c 4 d 4 e 4 nbsp first proposed in 1772 by Leonhard Euler who conjectured that four is the minimum number greater than one of fourth powers of non zero integers that can sum up to another fourth power This conjecture now known as Euler s sum of powers conjecture was a natural generalization of the Fermat s Last Theorem the latter having been proved for the fourth power by Pierre de Fermat himself Noam Elkies was first to find an infinite series of solutions to Euler s equation with exactly one variable equal to zero thus disproving Euler s sum of powers conjecture for the fourth power 3 However until Jacobi and Madden s publication it was not known whether there exist infinitely many solutions to Euler s equation with all variables non zero Only a finite number of such solutions was known 4 5 One of these solutions discovered by Simcha Brudno in 1964 6 yielded a solution to the Jacobi Madden equation 5400 4 1770 4 2634 4 955 4 5400 1770 2634 955 4 displaystyle 5400 4 1770 4 2634 4 955 4 5400 1770 2634 955 4 nbsp Approach editJacobi and Madden started with a 4 b 4 c 4 d 4 a b c d 4 displaystyle a 4 b 4 c 4 d 4 a b c d 4 nbsp and the identity a 4 b 4 a b 4 2 a 2 a b b 2 2 displaystyle a 4 b 4 a b 4 2 a 2 ab b 2 2 nbsp Adding a b 4 c d 4 displaystyle a b 4 c d 4 nbsp to both sides of the equation a 4 b 4 a b 4 c 4 d 4 c d 4 a b 4 c d 4 a b c d 4 displaystyle a 4 b 4 a b 4 c 4 d 4 c d 4 a b 4 c d 4 a b c d 4 nbsp it can be seen it is a special Pythagorean triple a 2 a b b 2 2 c 2 c d d 2 2 a b 2 a b c d c d 2 2 1 4 a b 2 c d 2 a b c d 2 2 displaystyle a 2 ab b 2 2 c 2 cd d 2 2 big a b 2 a b c d c d 2 big 2 tfrac 1 4 big a b 2 c d 2 a b c d 2 big 2 nbsp They then used Brudno s solution and a certain elliptic curve to construct an infinite series of solutions to the Jacobi Madden equation Other initial solutions editJacobi and Madden noticed that a different starting value such as 31764 4 27385 4 48150 4 7590 4 31764 27385 48150 7590 4 displaystyle 31764 4 27385 4 48150 4 7590 4 31764 27385 48150 7590 4 nbsp found by Jaroslaw Wroblewski 5 would result in a different infinite series of solutions 7 In August 2015 Seiji Tomita announced two new small solutions to the Jacobi Madden equation 8 1229559 4 1022230 4 1984340 4 107110 4 1229559 1022230 1984340 107110 4 displaystyle 1229559 4 1022230 4 1984340 4 107110 4 1229559 1022230 1984340 107110 4 nbsp 561760 4 1493309 4 3597130 4 1953890 4 561760 1493309 3597130 1953890 4 displaystyle 561760 4 1493309 4 3597130 4 1953890 4 561760 1493309 3597130 1953890 4 nbsp which lead to two new series of solutions constructed by the Jacobi and Madden method See also editBeal s conjecture Prouhet Tarry Escott problem Taxicab number Pythagorean quadruple Lander Parkin and Selfridge conjecture Sums of powers a list of related conjectures and theoremsReferences edit Jacobi Lee W Madden Daniel J 2008 On a 4 b 4 c 4 d 4 a b c d 4 displaystyle a 4 b 4 c 4 d 4 a b c d 4 nbsp American Mathematical Monthly 115 3 220 236 doi 10 1080 00029890 2008 11920519 JSTOR 27642446 Mathematicians find new solutions to an ancient puzzle Noam Elkies 1988 On A4 B4 C4 D4 Mathematics of Computation 51 184 825 835 doi 10 2307 2008781 JSTOR 2008781 MR 0930224 Weisstein Eric W Diophantine Equation 4th Powers MathWorld a b Jaroslaw Wroblewski Database of solutions to the Euler s equation Simcha Brudno 1964 A further example of A4 B4 C4 D4 E4 Mathematical Proceedings of the Cambridge Philosophical Society 60 4 1027 1028 doi 10 1017 S0305004100038470 MR 0166151 Seiji Tomita Solutions of a 4 b 4 c 4 d 4 a b c d 4 2010 Seiji Tomita New solutions of a 4 b 4 c 4 d 4 a b c d 4 2015 Notes edit In fact any nontrivial solution must include both a positive and negative value Retrieved from https en wikipedia org w index php title Jacobi Madden equation amp oldid 1192792416, wikipedia, wiki, book, books, library,
