The conjecture due to Pollock (1850) that every number is the sum of at most five tetrahedral numbers (Dickson 2005, p. 23;
incorrectly described as "pyramidal numbers" and incorrectly dated to 1928
in Skiena 1997, p. 43). The conjecture is almost certainly true, but has not
yet been proven.
The numbers that are not the sum of tetrahedral numbers
are given by the sequence 17, 27, 33, 52, 73, ..., (OEIS A000797)
of 241 terms, with
being almost certainly the last such number.
Dickson, L. E. History of the Theory of Numbers, Vol. 2: Diophantine Analysis. New York: Dover,
2005.Pollock, F. "On the Extension of the Principle of Fermat's
Theorem of the Polygonal Numbers to the Higher Orders of Series Whose Ultimate Differences
Are Constant. With a New Theorem Proposed, Applicable to All the Orders." Abs.
Papers Commun. Roy. Soc. London5, 922-924, 1843-1850.Salzer,
H. E. and Levine, N. "Table of Integers Not Exceeding 1000000 that are
Not Expressible as the Sum of Four Tetrahedral Numbers." Math. Comput.12,
141-144, 1958.Skiena, S. S. The
Algorithm Design Manual. New York: Springer-Verlag, pp. 43-45, 1997.Sloane,
N. J. A. Sequence A000797/M5033
in "The On-Line Encyclopedia of Integer Sequences."
tetrahedral numbers
are given by the sequence 17, 27, 33, 52, 73, ..., (OEIS A000797)
of 241 terms, with 
being almost certainly the last such number.
