Sum of two cubes

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In mathematics, the sum of two cubes is a cubed number added to another cubed number.

Every sum of cubes may be factored according to the identity

${\displaystyle a^{3}+b^{3}=(a+b)(a^{2}-ab+b^{2})}$

in elementary algebra.

Binomial numbers are the general of this factorization to higher odd powers.

Starting with the expression, ${\displaystyle a^{2}-ab+b^{2}}$ is multiplied by a and b

${\displaystyle (a+b)(a^{2}-ab+b^{2})=a(a^{2}-ab+b^{2})+b(a^{2}-ab+b^{2})}$

By distributing a and b to ${\displaystyle a^{2}-ab+b^{2}}$, we get

${\displaystyle a^{3}-a^{2}b+ab^{2}+ba^{2}-ab^{2}+b^{3}}$

And by cancelling the alike terms, we get

${\displaystyle a^{3}+b^{3}}$

Fermat's last theorem in the case of exponent 3 states that the sum of two non-zero integer cubes does not result in a non-zero integer cube. The first recorded proof of the exponent 3 case was given by Euler.^[1]

Taxicab numbers are numbers that can be expressed as a sum of two positive integer cubes in n distinct ways. The smallest taxicab number is 1729,^[2] expressed as

${\displaystyle 1^{3}+12^{3}}$ or ${\displaystyle 9^{3}+10^{3}}$

The smallest taxicab number expressed in 3 different ways is 87,539,319, expressed as

${\displaystyle 436^{3}+167^{3}}$, ${\displaystyle 423^{3}+228^{3}}$ or ${\displaystyle 414^{3}+255^{3}}$

The smallest taxicab number expressed in 3 different ways by using both positive and negative integers is 4104,^[3] expressed as

${\displaystyle 16^{3}+2^{3}}$, ${\displaystyle 15^{3}+9^{3}}$ or ${\displaystyle (-12)^{3}+18^{3}}$

• Difference of two squares
• Binomial number
• Sophie Germain's identity
• Aurifeuillean factorization

• Broughan, Kevin A. (January 2003). "Characterizing the Sum of Two Cubes" (PDF). Journal of Integer Sequences. 6 (4): 46. Bibcode:2003JIntS...6...46B.

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