Diophantine Equation--5th Powers
The 2-1 fifth-order Diophantine equation
 | (1) |
, and so has no solution. No solutions to the 2-2 equation | (2) |
have been checked (Guy 1994, p. 140),improving on the results on Lander et al. (1967), who checked up to 
. (In fact, nosolutions are known for Powers of 6 or 7 either.) No solutions to the 3-1 equation
 | (3) |
(Lander et al. 1967).Parametric solutions are known for the 3-3 (Guy 1994, pp. 140 and 142). Swinnerton-Dyer (1952) gave two parametric solutionsto the 3-3 equation but, forty years later, W. Gosper discovered that the second scheme has an unfixable bug. The smallestprimitive 3-3 solutions are
 |  |  | (4) |
 | |  | (5) |
 | |  | (6) |
 | |  | (7) |
 | |  | (8) |
(Moessner 1939, Moessner 1948, Lander et al. 1967).
For 4 fifth Powers, we have the 4-1 equation
 | (9) |
 | |  | (10) |
 | |  | (11) |
 | |  | (12) |
 | |  | (13) |
 | |  | (14) |
 | |  | (15) |
 | |  | (16) |
 | |  | (17) |
 | |  | (18) |
 | |  | (19) |
(Rao 1934, Moessner 1948, Lander et al. 1967).
A two-parameter solution to the 4-3 equation was given by Xeroudakes and Moessner (1958). Gloden (1949) also gave aparametric solution. The smallest solution is
 | (20) |
 | (21) |
 | (22) |
Sastry (1934) found a 2-parameter solution for 5-1 equations
 | |
 | (23) |
 | |  | (24) |
 | |  | (25) |
 | |  | (26) |
 | |  | (27) |
 | |  | (28) |
 | |  | (29) |
 | |  | (30) |
 | |  | (31) |
 | |  | (32) |
 | |  | (33) |
 | |  | (34) |
 | |  | (35) |
(Lander and Parkin 1967, Lander et al. 1967).
The smallest primitive 5-2 solutions are
 | |  | (36) |
 | |  | (37) |
 | |  | (38) |
 | |  | (39) |
 | |  | (40) |
 | |  | (41) |
(Rao 1934, Lander et al. 1967).
The 6-1 equation has solutions
 | |  | (42) |
 | |  | (43) |
 | |  | (44) |
 | |  | (45) |
 | | | (46) |
 | |  | (47) |
 | |  | (48) |
 | | | (49) |
(Martin 1887, 1888, Lander and Parkin 1967, Lander et al. 1967).
The smallest 7-1 solution is
 | (50) |
References
Berndt, B. C. Ramanujan's Notebooks, Part IV. New York: Springer-Verlag, p. 95, 1994. Gloden, A. ``Über mehrgeradige Gleichungen.'' Arch. Math. 1, 482-483, 1949. Guy, R. K. ``Sums of Like Powers. Euler's Conjecture.'' §D1 in Unsolved Problems in Number Theory, 2nd ed. New York: Springer-Verlag, pp. 139-144, 1994. Lander, L. J. and Parkin, T. R. ``A Counterexample to Euler's Sum of Powers Conjecture.'' Math. Comput. 21, 101-103, 1967. Lander, L. J.; Parkin, T. R.; and Selfridge, J. L. ``A Survey of Equal Sums of Like Powers.'' Math. Comput. 21, 446-459, 1967. Martin, A. ``Methods of Finding Martin, A. Smithsonian Misc. Coll. 33, 1888. Martin, A. ``About Fifth-Power Numbers whose Sum is a Fifth Power.'' Math. Mag. 2, 201-208, 1896. Moessner, A. ``Einige numerische Identitäten.'' Proc. Indian Acad. Sci. Sect. A 10, 296-306, 1939. Moessner, A. ``Alcune richerche di teoria dei numeri e problemi diofantei.'' Bol. Soc. Mat. Mexicana 2, 36-39, 1948. Rao, K. S. ``On Sums of Fifth Powers.'' J. London Math. Soc. 9, 170-171, 1934. Sastry, S. ``On Sums of Powers.'' J. London Math. Soc. 9, 242-246, 1934. Swinnerton-Dyer, H. P. F. ``A Solution of Xeroudakes, G. and Moessner, A. ``On Equal Sums of Like Powers.'' Proc. Indian Acad. Sci. Sect. A 48, 245-255, 1958.
th-Power Numbers Whose Sum is an th Power; With Examples.'' Bull. Philos. Soc. Washington 10, 107-110, 1887.
.'' Proc. Cambridge Phil. Soc. 48, 516-518, 1952.
- Irrotational Field
- Isarithm
- ISBN
- I-Signature
- Island
- Isobaric Polynomial
- Isochronous Curve
- Isoclinal
- Isocline
- Isoclinic Groups
- Isodynamic Points
- Isoenergetic Nondegeneracy
- Isogonal Conjugate
- Isogonal Line
- Isogonic Centers
- Isograph
- Isohedral Tiling
- Isohedron
- Isolated Point
- Isolated Singularity
- Isolating Integral
- Isometric Latitude
- Isometry
- Isomorphic Graphs
- Isomorphic Groups